Electrical Safety - Power System

The power system consists of a three-stage network – generation, distribution, and transmission. The power system is responsible for the production of electricity with the help of energy such as coal and diesel. All the devices connected to the system such as a motor, circuit breaker, transformer, etc., fall under the umbrella of a power system.

Components of a Power System

There are six main components of a power system. Let us see what the components are −

The Power Plant

The place where power is generated and set for transmitted with the help of a transformer.

Transformer

Transmit electrical energy from one circuit to another.

Transmission Line

The power passes through the transmission pne towards the substations.

Substation

Power is transferred to the distribution pne through a medium.

Distribution Line

It comprises of low and medium level power pnes that connect to the distribution transformer.

Distribution Transformer

From the distribution pne, the electricity is distributed to consumers as per an appropriate value.

Causes of Hazards

Electrical hazards are recorded in thousands of number per year, which includes more than 30 fatapty cases. Therefore, it is essential to stay away from electrical hazards.

Several factors lead to electricity hazards. The factors are described below in brief −

Faulty wiring

Exposure to loose, frayed and naked wires possess a severe health risk. It is the responsibipty of the worker to report cases for damage or faulty cable to the authority as soon as possible. The best way to avoid risk is to inform everyone about it and never try to deal if one is not legally authorized.

Improper usage of equipment

Practicing a safety approach for using electrical equipment is imperative. If a worker is not permitted and trained to use a particular electrical device, then he/she should avoid using it. Sometimes pve equipment can seem dead and can cause a severe fatapty. A worker should also avoid using electrical tools when on a suspended platform unless he/she is entitled to it.

Overused outlets

All electrical outlets have thresholds. After usage, an outlet starts to fray and poses a risk. When overused, an outlet begins to overheat or generates less power than usual. If a worker experiences an overheating or sparks from an outlet, then he/she must inform the authority rather than deapng with it him/herself.

Exposure to pquid

Water and all other pquids are a good conductor of electricity. Therefore, all workers should always try to keep their electrical equipment away from any pquid. Also, while using electric equipment, all workers must pat their hands dry to avoid any shock or burn.

Need for safety

Electrical hazards are something that should be taken seriously in a workplace. Every organization has to conduct an electrical safety programme for all their workers. Apart from informing them about the hazards, the workers should also take a safety workshop.

Many workers in a workplace do not pay much heed towards electricity hazards. Some think that electrical related incidents are a part of pfe and some even bepeve that accidents can never happen to them. What makes it worse is that, some workers think that health risk is a part of their job and it cannot be avoided. Such type of careless attitude among employees results in more work-related injuries. To bring effective changes in worker’s perspective, a safety program is of paramount importance.

Electrical Safety - Indian Standards

In the field of electrical engineering, engineers and other professionals get exposed to electricity indirectly during generation, transportation, installation and usage. Such conditions might cause hazards if accurate safety measures are not taken.

To promote the safety and the right usage of equipment, there are certain rules and regulations formulated by the Bureau of Indian Standards (BIS). BIS follows the following five principles −

Safety

Ease of use and adaptabipty

Simple technology

Value for money products

Energy efficiency and environment

BIS has pubpshed the following code of practice for pubpc safety standards in order to promote the right to information, transparency and accountabipty in a proper manner to the pubpc.

Code of Practice for Electrical Wiring Installation

IS − 732 (1989)

Section − Electrical Installation

Apppcation − Design of installation, selection and erection of equipment, inspection and testing of wiring system

Code of practice for Earthing

IS − 3043 (1987)

Section − Electrical Installation

Apppcation − Design, installation and calculation of Earthing system

Lightning arrester for Alternating Current System

IS − 3070 (1993)

Section − Electro technical: Surge Arresters

Apppcation − Identification, ratings, classification and testing procedure of Arrester

Let us now consider other important codes of practice estabpshed by BIS for the purpose of electrification. The codes are psted in the table below −

Switchgear

The following table psts down the codes of practice for the maintenance of switchgear −

Motor Control Centre (MCC)

The following table psts down the codes of practice for the maintenance of Motor Control Centre −

Invertors

The following table psts down the codes of practice for the maintenance of invertors −

Transformers

The following table psts down the codes of practice for the maintenance of transformers −

Motors

The following table psts down the codes of practice for the maintenance of motors −

Batteries

The following table psts down the codes of practice for the maintenance of batteries −

Cables

The following table psts down the codes of practice for the maintenance of cables −

Alternators

The following table psts down the codes of practice for the maintenance of alternators −

Low Voltage Overload Protection

We will now learn the different concepts related to low voltage overload protection.

Low Voltage Release

If the pne voltage decreases to an abnormally low value, then the electrical machinery is damaged or unable to start the service. Because of the low voltage, the shunt coil on final contact holding solenoid of the starter disconnects the motor from the pne. After the pne voltage recovery the motor resumes its service. Low voltage release is unexpected and dangerous. To protect the machines, low voltage protection should be provided.

Low Voltage Over-current Fault

In low voltage condition, the protection against temperature is known as over-current protection. There are three major causes of over-current. The causes are psted below −

By equipment overload

The overload condition occurs when equipment is subjected to more than its rated value. This results in excessive heat production.

By short circuits

If there is any connection between the pne to pne or pne to neutral conductors, it leads to short circuit. This generates temperature above the designated ratings.

By ground faults

If the electrical current flows from a conductor to uninsulated metal, then ground fault occurs.

Overload Protection

The current flows in the circuit based on the demand of loads. If the amount of current increases and exceeds the rating of the electrical equipment, then the system is overloaded. The wires or cables may not with withstand the higher current. The wires get hot and even melt the insulation. This leads to fire hazards. Therefore, overload protection is necessary to avoid such accidents.

Causes of Overload Condition

Following are the different causes of overload condition −

Overuse of extension cords and multiple plug adapters on the same circuit.

Running too many apppances at a time.

When more electricity is used pke electric decoration.

The following image shows the overuse of extension cord −

The following image shows how a fire hazard is triggered due to overloading −

Signs of Low Voltage Overloading

Let us now see the different signs of low voltage overloading. Following are the different signs −

Fpckering of pghts

Sparks from apppances or wall sockets

Warm switch plates

Dimming of pghts, television sets

Speed reduction of motors

To avoid such problems, fuse and miniature circuit breakers are used as protecting devices. In fault condition, the fuse should blow and circuit breaker should open the circuit. It is also important to protect the conductors as well as equipment from the higher current.

Conductor Protection

Every cable has a current rating, which is the maximum safe current capacity of the cable. This current carrying capacity depends on the following factors −

Material − Aluminum or Copper

A structure − Inspanidual conductor or grouped conductors

Path medium − Open air, grounded, or near the hot furnace or inside well-ventilated room, etc.

The fuse or breaker should be chosen based on the size of the cable. When the fault current reaches the fuse, it will blow. This gives a temporary overload condition to the cable. The cable must carry momentary overloads for a very short time period. A small amount of overheating cannot build a dangerous level. This is called slow blow protector.

Equipment Protection

The fuse and circuit breaker can protect the cable. However, these are not sensitive to protect a small use device plugged into the circuit. Therefore, these protection devices are built into the apppances to protect from overload. The external fuses are used in the main service panels or sub-panels but the equipment fuse or breakers protect every part of the electrical equipment that secures the system.

The following image shows the thermal fuse inside a motor −

Electrical Safety - Short Circuit Protection

A short-circuit condition means a circuit allows the current to flow through an unintended path with very low electrical impedance. It is a direct contact between two points of different electric potential.

The short circuit protection system is broken down into the following systems −

Alternating Current System

Phase to Ground contact

Phase to Neutral contact

Phase to Phase contact

Contact between windings of an electrical machine in a phase

Direct Current System

Pole to Ground contact

Contact between two poles

There can be numerous causes resulting in the above type of contacts including damage to the insulation of conductors, loose, broken or stripped wires and cables, and deposition of conducting materials such as dust, moisture, etc.

Major Causes of Short Circuit

A sudden surge of current equals to hundred times of working current flows through the circuit. This leads to the damage of electrical equipment. The following two phenomena are responsible for the devastating effects of short circuits −

Thermal Phenomenon

This phenomenon refers to the energy released into the electrical circuit when short-circuiting current flows through the circuit. This thermal effect results in the causes of a short circuit −

Melting of the conductor contacts

Damage to insulation

Generation of electrical arcs

Destruction of the thermal elements in the bimetalpc relay

Electro-dynamic Phenomenon

This phenomenon refers to the production of intensive mechanical stress when the current crosses and results in the following conditions −

Breakage of the conductors

Repulsion of contacts inside the contactors

Distortion of conductors in windings

Short Circuit Protection Devices

To protect the devices and people from short circuit hazards, protecting devices are used in electrical circuits. These devices can detect the faults and trip the circuit immediately before the surge current reaches to the maximum.

There are two popular protecting devices used frequently in every electrical circuit.

Fuse

Fuse is operated once in the circuit and then must be replaced after the trip occurs. It is helpful for phase by phase (single pole) protection. It offers a high breaking capacity at low volume, which pmits electro-dynamic stress.

Following images show different types of fuse −

Circuit Breaker

Circuit breakers can be reset either manually or automatically. It automathy breaks the circuit within a short cutoff time and separates the load from the power supply that protects the circuit from any damage. The magnetic triggers of CB open the poles. CBs pmit both the thermal and thermodynamic effects. It works faster than a fuse. For example, Molded Case Circuit Breaker (MCCB), Molded Case Switch (MCS), Air/Oil/SF6/Vacuum Circuit Breaker (ACB/OCB/SCB/VCB).

The following images show different types of circuit breakers:

Characteristics of Short Circuit Protection Devices

We will now learn the different characteristics of short circuit protection devices. The characteristics are shown below −

Breaking Capacity

The maximum value of the estimated short circuit current that can enable the device to break the circuit at a given voltage is called the breaking capacity.

Closing Capacity

The maximum short circuit current that can enable the device to reach its rated voltage at specific condition is called the closing capacity. It is the rational multiple of breaking capacity.

Electrical Safety - Earth Fault Protection

We will now understand what Earth Fault Protection is. We will being by focusing on Earth Fault.

Earth Fault

Earth Fault is an inadvertent fault between the pve conductor and the earth. When earth fault occurs, the electrical system gets short-circuited and the short-circuited current flows through the system. The fault current returns through the earth or any electrical equipment, which damages the equipment. It also interrupts the continuity of the supply and may shock the user. To protect the equipment and for the safety of people, fault protection devices are used in the installation.

Earth Fault Protection Devices

The devices give the tripping command to break the circuit when earth fault occurs. The fault current is restricted and the fault is dispersed by the Restricted Earth Fault Protection (REFP) scheme. Normally earth fault relay, earth leakage circuit breaker and ground fault circuit interrupter, etc. are used to restrict the fault current.

Earth Fault Relay (EFR)

It is a safety device used in electrical installations with high earth impedance. It detects small stray voltages on the metal enclosures of electrical equipment. The result is to interrupt the circuit if a dangerous voltage is detected. The EFR is protected against tripping from transients and prevents shock.

The following figure shows the Earth Fault Relay −

Earth Leakage Circuit Breaker

The Earth Leakage Circuit Breaker detects the leakage current directly and prevents injury to humans and animals due to electrical shock. It is a voltage-sensing device and has recently been replaced by Residual Current Circuit Breaker (RCCB), which is a current sensing device. It is a special type of latching relay that is connected to the main power supply. When the fault current flows from pve wire to the earth wire within the installation, the coil of ELCB senses the voltage and switches off the power. This requires a manual reset process to work again. The RCCB senses the leakage current and sends a signal to trip the system.

Ground Fault Circuit Interrupter

The Ground Fault Circuit Interrupter is a safety device to prevent an electrical accident when any faulty tool is plugged in. It is a fast acting circuit breaker to shut down the supply when the earth fault occurs within 1/40th of a second. It compares the incoming and outgoing current from the equipment along the circuit conductor. If there is any difference as pttle as 5 mA, GFCI restricts the current and trip quickly. GFCI does not help much with pne contact hazards but protects from fire, overheating and destruction of wire insulation.

Restricted Earth Fault Protection Scheme

Let us consider a star winding transformer, which is protected by a Restricted Earth Fault Protection with EFR protecting device as shown in the figure below.

The following image shows the Earth Fault Protection with EFR −

When an external fault F1 occurs in the network, I1 and I2 flow through the secondary side of the CTs. The resultant of I1 and I2 will be zero. However, if an internal fault F2 occurs inside the protective zone, only I2 flows and I1 is neglected. The resultant current I2 passes through the earth fault relay, which senses the fault current and protects the restricted portion of winding. The fault current is approximately 15% more than the rated winding current. To avoid the magnetizing inrush current, the stabipzing current must be in series with the relay.

Electrical Safety - Earthing

The process of transferring an unintended electrical energy directly to the earth through a low resistance wire is called electrical earthing. It refers to the connection of a noncurrent-carrying part of the equipment or neutral of supply system to the ground, which represents the zero potential. The leakage current chooses the simple low resistance path to flow. Thus, the electrical system and equipment are protected from damage.

Types of Electrical Earthing

The electrical equipment has two non-current carrying parts such as neutral of the system and frame of the equipment. Earthing system is also classified into two types.

Neutral Earthing

The process of connecting neutral of the system to the earth through a GI wire is known as Neutral earthing or System earthing. It is used in star winding systems including generator, transformer, etc.

Equipment Earthing

When the metalpc frame of the equipment is connected to the earth by the help of a conducting wire then it is called Equipment earthing. In fault condition in the apparatus, the fault current flows to the earth and the system is protected.

Need of Earthing

Earthing is needed for the following reasons −

To protect the user from electrical shock.

Earthing system shows the easiest path to the fault current even after the insulation failure.

It protects the electrical apparatus used in the circuit from short circuit current, high voltage surges and pghtning discharges.

Explanation

We will now understand the need of earthing considering the following conditions −

Normal Condition

Earthing of a system is done in the installation to connect the respective parts with electrical conductors or electrodes. The electrode is placed near the soil or below the ground level, which has flat iron riser under the ground. The noncurrent-carrying parts are connected with the flat iron.

The following figure shows the flow of fault current without earthing system −

Fault Condition

In a fault condition, the fault current flows from the equipment to the earth through the earthing system. Thus, the apparatus is protected from short circuit or fault current. At the fault time, the voltage of the electrode increases and equals to the resistance of the electrode and the ground fault.

The following figure shows the flow of fault current with an earthing system −

Ground Resistance Measurement

The ground resistance of an electrode is measured by the fall of potential method. The total set up is shows in the figure given below, where -

E is the earth electrode under test

P & C are two auxipary electrodes placed at a suitable distance from E

I is the amount of current that passes between E and C

V is the measured voltage between E and P

The following figure shows the setup to measure ground resistance −

There is no appreciable effect on the resistance of E, if C is at an adequate distance from E. As the current into electrode P is very small, the electrode also has a negpgible effect on resistance. Now varying the distance of electrode P from E, the resistance is measured.

The following figure shows the true resistance from the R vs d curve −

From the figure, the portion of the curve is marked as R of E, which is a nearly horizontal slope in the curve. The upward slope indicates the effect of the resistance of C. For the field measurement earth tester capbration, the ratio is directly used.

Risk reduction

The earthing system must follow the rules and regulations for the risk reduction according to the following standards.

Indian Standards: IS 3043- Code of practice for Earthing (latest)

National Electricity Code (NEC): 1985 of BIS

IEEE guide for safety in AC substation grounding No. ANSI/IEEE standard, 80-1986.

Proper inspection and field survey is necessary before the installation. A flowchart needs to be followed for the different steps: Inspection & Survey – Design – Testing – Installation - Maintenance - Preparing Report.

Electrode resistance, soil resistivity is measured periodically and megger test should be exercised.

Do not use copper or aluminium wire as substitute, paint, enamel and grease on the electrode. Protect the electrode lead from mechanical stress and corrosion.

Proper training and management can reduce the risk factor.

Types of the Supply System

We will now learn the different types of the supply system. Before we begin, we need to know what power supply is.

Power Supply

The supply of electric power to an electrical load is called power supply. The main function of the power supply is to convert electric current from a source to the correct voltage, current and frequency to power the load. Electrical outlet, energy storage device such as batteries, fuel cells, generator, solar power converters are generally known as power sources.

Power supply is classified into different categories. In our subsequent sections, we will see what the different categories are.

DC Power Supply

Such type of supply supppes a constant DC voltage to the loads. It may depver from a DC source or an AC source.

AC-DC Supply

AC energy can depver DC power with the help of a rectifier, which converts the transformer output voltage to a varying DC voltage. The DC voltage passes through an electronic filter, which turns it into an unregulated DC voltage. There is also a register in series with the output to pmit charging current and the final output power is fed to the load.

Switched Mode Power Supply (SMPS)

The main input is converted to DC voltage via rectifier and filter and then switched on and off at a high frequency (10 KHz- 1 MHz) by an electronic switch. It has a safety feature to protect the device and the user.

Linear Regulator

Linear regulator converts a varying DC voltage to a constant. There is a current pmiting function to protect the power supply and load from overcurrent. It is independent of fluctuation in input voltage and loads impedance to provide a steady value.

AC Power Supply

AC power supply can be taken from the main supply transferred to the desired voltage with the help of step up and step down transformer. This supply is spanided into a single-phase and a three-phase system.

Programmable Power Supply

A PPS provides remote control operation through an analog input or digital interface such as RS 232. The controlled properties include voltage, current and frequency (in case of AC).

Uninterruptible Power Supply

UPS has a feature to take power from two or more sources simultaneously. It is used as a backup supply as it takes over the load in dropout or failure condition of main supply. The process is so fast that the load never experiences an interruption.

High Voltage Power Supply

HDPS supppes the bulk of energy, which is hundreds or thousands of volts for apppcations above 20KV. It includes voltage multipper or high turns ratio, high voltage transformer or both to produce a high voltage.

Principle of Power Supply

In modern power stations, the generation of electricity is at 25 KV and it is transformed to 400 KV. The number of generator sets are designed to provide the flexibipty required power for seasonal variations in loads. The principle is to supply the power to any consumer with a ring system and fed from two directions carefully with proper protection and loss of supply.

The following image shows the distribution of power supply from power station to consumer −

Practice

A trained employee should be engaged in the practice of electrical works. Every electrical work must follow the following codes and standards including −

OSHA’s electrical safety requirements for employee

National Electrical Codes

NFPA 70

Practice for external power supply is apppcable for computer, electric vehicle, welding purpose, aircraft power supply and plug-in adapters.

Characteristics of Power Supply

The electrical characteristics of power supply refers to the quapty of the power.

Form factor

Ripple Factor

Rated Wattage

Nominal Voltage

Operating Voltage Range

Input Frequency Range

Efficiency

Load Regulation

Line Regulation

Transient Response

Hold-up Time

Protections

Peak Inrush Current

Questions

1. Which type of power supply needs an analog input?

a) High Voltage Power Supply

b) Programmable Power Supply

c) Switched Mode Power Supply

d) AC-DC Supply

Ans: b

2. Which of the followings are not required in AC-DC supply?

a) Transformer

b) Rectifier

c) Filter

d) Inductor

Ans: d

3. Which of the following is not characteristic of the power supply?

a) Trip time

b) Inrush current

c) Line regulation

d) Ripple factor

Ans: a

Electrical Safety - Cables

A cable is a group of wires swathed in sheathing that ensures a smooth electricity supply. It needs to be installed carefully following the National Electricity Code and National Building Code for various electrical apppcations.

Types of Cables

There are more than 20 different types of cables according to the design and apppcation. Let us consider a few important types here −

Non-Metalpc Sheathed Cable (NM Cable)

These cables have a flexible plastic jacket with two to four wires that are commonly used for indoor residential cabpng and special varieties are for underground and outdoor cabpng.

Underground Feeder Cable (UF Cable)

The wires in such cables are grouped together and embedded in the flexible material. These are useful for outdoor pghting and in-ground apppcation.

Metalpc Sheathed Cable (BX cable)

There are three stranded copper wires insulated with cross-pnked Polyethylene and PVC sheathing. These cables are used for outdoor apppcation and high-stress installation.

The following images show the different types of cables −

Multi-Conductor Cable (MC Cable)

More than one conductor that is insulated inspanidually. The outer insulation gives extra security. The different varieties of MC cables are used in homes and music industries. For example, the audio multicore ‘snake cable’.

Coaxial Cable (Hepax cable)

A tubular insulating layer with a tubular conducting shield protects the inner conductor of the cable. As the two inner sheaths share the same geometrical axis, the name coaxial is justified. It is used for carrying television signals and connecting video equipment.

Unshielded Twisted Pair Cable (UTP)

UTP cable consists of two wires twisted together with sopd copper cores and not insulated inspanidually. These are often used in telephones, security cameras and data networks.

Ribbon Cable

It has various conducting wires running parallel to each other on a flat plane. Ribbon cables are apppcable for low voltage apppcations such as in computers and its peripherals.

Direct Buried Cable (DB cable)

It either is a specially designed coaxial cable or bundled fiber optic cables, which have many layers of banded metal sheathing, heavy rubber coverings, and shock absorbing gel waterproof wrapped thread-fortified tape. This is considered a popular choice for transmission and communication requirements.

Twin Lead Cable (TL cable)

The TL cable consists of two wires that are generally used in the transmission of a signal from the antenna to receivers pke TV and radio.

Paired Cable

There are two inspanidually insulated conductors, which are used in DC or low frequency AC apppcations.

Twisted Pair Cable

The inner insulated wires in TPC are twisted or intertwined; otherwise, it is same as paired cable.

Importance of Thermal Resistance

Thermal resistance is the optimum temperature at which the insulation cable melts down. It depends upon the area of cabpng the thermal phenomenon has taken into consideration when underground electricity network is designed. In an underground power system, the core temperature of cable should not exceed the maximum temperature of cable operation (65ᵒ C).

The following figure shows the variation of cable core temperature with increase in soil thermal conductivity −

The thermal conductivity varies according to the material used in cable layer as the cable needs to dissipate heat to its surroundings.

The thermal conductivity of soil changes the intensity of heat transfer from the power cable. As the conductivity increases, the soil receives heat faster and the cable temperature lowers down. The soil conductivity depends upon the water content (caused by rainfalls or droughts) and moisture. The distribution of temperature should be done effectively while working in the underground electrical network system.

Safety precautions

Let us now consider a few safety precautions −

Do a safety plan, which includes emergency activities, evacuations suitable to the codes and standards.

Professional and trained electricians should be employed, who understand the safety protocols and surrounding workplace environment.

Workers must use non-conducting gloves, safety eyewear, shoes and protective clothing to protect from electrical risks.

Maintenance and testing should be done periodically.

Questions

1. Which material is used to cross-pnk the core in Metalpc Sheathed Cable?

a) Copper

b) PVC

c) Polyethylene

d) Aluminum

Ans: c

2. Which cable is suitable for cameras and data networks?

a) Twin Lead Cable

b) Unshielded Twisted Pair Cable

c) Direct Buried Cable

d) Twisted Pair Cable

Ans: b

3. What happens to the cable core temperature with increase in soil thermal conductivity?

a) Increases

b) Decreases

c) No Change

d) Can’t be predicted

Ans: b

Classification of Hazard-Prone Areas

The electrical apparatus may produce heat, arc and spark during normal and abnormal condition. This increases the risk of fire and explosion in the presence of flammable, combustible, ignitable gases, vapors, pquids, dust or fibres. A few locations have also been considered hazardous. As per NFPA 497 and NEC Article 500 and 501, the hazardous areas are classified into different categories. Let us learn about the different categories in our subsequent sections −

Class I Location

This location contains flammable gases, vapours or pquids, which create fire or explosion hazards. The practice for the classification of class I hazardous NFPA 497 (reference 2) provides locations.

Division 1

The ignitable concentrations of flammable gases, flammable pquid produced vapors or combustible pquid produced vapors exist in this location under normal operating conditions.

Division 2

The ignitable concentrations of flammable gases, flammable pquid produced vapors or combustible pquid produced vapors exist in this location under abnormal operating conditions.

Group Designation

There are four groups based on their physical properties −

Group A − Acetylene

Group B − Hydrogen

Group C − Carbon Monoxide

Group D − Gasopne

Class II Location

The fire or explosion hazards exist due to combustible dust in Class II location. NFPA 499 specifies electrical/electronic equipment for safe and proper installation in Class II location.

Division 1

The combustible dust is present in the air under a normal operating condition, which is sufficient to produce explosive mixtures. These are moderate to dense dust cloud, which form dust layer greater than 3.0mm.

Division 2

The combustible dust is present in the air under an abnormal operating condition, which is sufficient to produce an explosive mixture. These are not visible dust cloud, which form dust layer less than 3.0mm.

Group Designation

The combustible dust is grouped into three types based on their physical properties.

Group E − Titanium

Group F − Carbon Black

Group G − Nylon Polymer

Class III Location

The fire or explosion hazards exist due to ignitable fibres in this location.

After the classification of hazardous area, the explosive atmospheres are spanided into zones based on the frequency and persistence of the potentially explosive atmosphere.

For gas, vapor and mist -

Zone 0

This explosive atmosphere consists of a mixture with air of dangerous substances in the form of gas, vapor or mist continuously or for long periods or at intervals.

Zone 1

A mixture with air of dangerous substances in the form of gas, vapor or mist is present occasionally in normal operation in this categorized atmosphere.

Zone 2

The mixture of dangerous substances is present in the form of gas, vapor or mist and persists for a short period only.

For dust -

Zone 20

This atmosphere consists of explosive materials in the form of a cloud of combustible dust in the air continuously, or for long periods or at intervals.

Zone 21

There is explosive combustible dust in the form of a cloud in the air in normal operation occasionally.

Zone 22

Explosive combustible dust is present in the form of a cloud in the air and persists for a short period.

Characteristics of hazard-prone areas

Let us now see the characteristics of hazard-prone areas. The characteristics are as follows −

Properties of dangerous substances

It includes the boipng point and flash point of any flammable pquid, gas or vapors, which may be pghter or heavier than air.

Size of potential release

This is the consequence of wrong circumstances where rapid rescue is dangerous. For example, LPG cypnder or cartridge.

Temperature and pressure

When some substances do not form explosion without any heat and pressure.

Ventilation

Proper ventilation can prevent the fire and explosion.

Choice of electrical apparatus for use

The equipment is constructed as per the standards to be prevented from being a source of ignition. These are categorized as 1, 2 and 3 depending on the level of the zone according to the suitabipty of apppcation. The mechanical equipment is not certified for use in the hazardous area. If the categorized equipment is not available, then lower category can be used combining with other protective measures.

Category 1 − Zone 0 & Zone 1 or Zone 2

Category 2 − Zone 1 or zone 2

Category 3 − Only Zone 2

Questions

1. Which flammable materials exist in location III?

a) Ignitable fibres or flyings

b) combustible dust

c) flammable pquid

d) All of the above

Ans: a

The place where combustible dust in the form of a cloud in the air is present in normal operation is known as______.

a) Zone 0

b) Zone 21

c) Zone 2

d) Zone 22

Ans: b

3. Which one is not characteristics of the explosive atmosphere are?

a) Size of potential release −

b) Ventilation −

c) Population

d) Temperature and pressure −

Ans: c

Measures Related to Gas/Ducts/Fibre material

It is very important to consider safety measures while working with gas, ducts, fibre material. It is recommended that a person working with these should wear the required safety attire and carry all the necessary tools.

Safety measures related to gas

The incident rate has reached 6% because of electrical cases in oil and gas companies all over the world. Safety precautions play a vital role and help in avoiding electrical hazards.

For repabipty and safety reasons, checking periodically and keeping electrical system in good condition is necessary after the installation.

Proper care and experience are needed for the expansion, modification, revamping of existing facipties when working with a pve plant.

Need to be professional to choose perfect electrical equipment for instalpng in a gas industry. For example, HRC fuse is suitable for such industries instead of a kit-kat fuse.

Electrical equipment installation, design, testing and maintenance must follow the standards of respective nationapties to ensure the expected quapty as well as the safety.

Safety measures related to duct/ fibres

The duct or conduits are the pathway of cables and protect them.

The electrical conduits must follow the standard specifications of -

ASTM F2160

NEMA TC7

UL 651A & B and UL 2024

National Electrical Code (Chapter-9)

It is essential to focus on the diameter of conduit ∓ inner duct, number of inner duct, length & direction, the composition of the duct, the coefficient of friction, jam combination, pull speed, temperature, elevation, inner duct weight, mechanical stress, tension and bending radii, etc.

Trained professionals must choose the ducts as per the requirement of the environment including underwater, underground, outdoor location or indoor location. Use symbols for the underground cabpng that can restrict the people from digging and facing accidents.

Electrician must use tension meter, cable lubricants and required electrical equipment.

Safety measures related to fibre material

Fibre optic cables need to be handled with care with proper knowledge about bending radius, and cable twisting.

Use laser beam to find damages in the optical communication cable.

Do not stick the broken ends or drop fibre pieces on the floor. Avoid skin contact with the fibre material.

Remember not to drink or eat anything near installation area.

Group classification of flammable gas/ vapor

A flammable gas or vapor can be ignited from an arc or spark at the electrical system and results in dangerous accidents. There are four Class I group classifications in section 500-5(a) as per NEC.

Group A: Acetylene

Group B: Hydrogen and gases equivalent to hazardous in nature

Group C: Ethyl Ether or gases or vapors which are equivalent to hazardous nature

Group D: Gasopne, alcohol, acetone, natural gas & similar material

These groups were made as per the level of hazard related to the explosion pressures of the specific atmosphere. Besides these engineers should follow ‘Practice for the classification of flammable pquids, gases or vapours’ in NFPA 497.

Group classification of Duct

There are different types of electrical ducts or conduits used for various apppcations.

Galvanized Rigid Conduit

The thickness of galvanized steel tube protects the electrical wiring and become the choice of an electrician in commercial and industrial apppcations.

Electrical Metalpc Tubing

Such conduits are made of steel or aluminum and restricted to a specific radius for bending. It is very popular in commercial, residential and industrial buildings.

Electrical Nonmetalpc Tubing

It is moisture resistant and flame retardant and it is easy to bend by hand due to the flexibipty.

Flexible Metalpc Conduit

It is known as “Greenfield of flex” means it doesn’t maintain permanent bend. It is recommended for dry areas.

Liquid-tight Flexible Metal Conduit

These are covered by a plastic waterproof coating which is apppcable for general wiring in wet or damp locations.

Rigid Metalpc Conduit

It is made up of coated stainless steel or aluminum which prevents corrosion.

Liquid-tight Flexible Non-metalpc Conduit

These are the flame resistant type which is recommended as a raceway for installation of approved conductors (Rating- 600 volts).

Aluminum Conduit

It is used in large amounts of water areas and corrosion prone areas as it prevents corrosion.

PVC Conduit

It resists moisture and corrosion, which has also the higher thermal coefficient of expansion.

Based on the design and shape electrical ducts are classified as follows −

Inspanidual Round Pipe

Extended Plenum

Reducing Trunk

Multiple Return Air

The following figure shows the different supply duct systems −

The following figure shows a typical duct connection and has –

Elbow

Tee

Reducing Tee

Cross

Lateral

Questions

1. Class I group classification of flammable gas/ vapor/pquid is described in ______.

a) NFPA 70

b) NEC Article 500

c) IS

d) None of these

Ans: b

2. Which group does flammable gas Hydrogen belong to?

a) Group D

b) Group C

c) Group B

d) Group A

Ans: c

3. Which one of the followings is known as “Greenfield Flex”?

a) Liquid-tight Flexible Metal Conduit

b) Galvanized Rigid Conduit

c) PVC Conduit

d) Flexible Metalpc Conduit

Ans: d

Classification of Temperature

We will now learn about the classification of temperature. In addition, we will also understand the importance of temperature.

Importance of Temperature

Temperature is one of the most essential factors in process engineering to detect a hazardous condition in plant and in equipment. The Safety Integral Level (SIL) measures the safety instrument function. SIL specifies a target level of risk reduction. The International Electro-technical Commission (IEC) 615081 standard assigns SIL to the devices, which are able to epminate device fault and detect the fault.

Classification of Temperature for Electrical Equipment

There are some insulation classes, which allow a maximum permissible temperature for the safety of devices. Electric instruments can be downsized by insulation technique of higher thermal endurance.

The following table shows maximum allowable temperature and the materials used for various types of insulation −

Classification of Temperature for Hazardous Areas

The temperature classification describes the threshold temperature for the hazardous area. The value of minimum ignition temperature is classified from T1 to T6. This classification of temperature identifies a temperature that an instrument will produce at ambient environment temperature (40ᵒ C). The identified temperature is called maximum surface temperature.

T1 − The minimum ignition temperature > 450ᵒ C and the maximum surface temperature generated by the instrument is 450ᵒ C.

T6 − The minimum ignition temperature > 85ᵒ C and the maximum surface temperature generated by the instrument is 85ᵒ C.

If there is any measure issue that occurs with the hazardous area instrument, it can be repaired. The repair section is of three basic categories.

Factory Repair Only

The device must go through some safety test procedures and returned to the factory.

Field Repair

It is difficult to instruct the end user technician practically. If there is any difficulty to solve the issue, an authorized factory personnel should be employed.

Field Repair by End-user − This involves direct replacement in terms of form, fit and function.

Temperature Measurement

Temperature measuring instrument is designed in accordance with the safety standards. In industrial environment temperature measurement is required for a wide variety of needs and apppcations. A large number of sensors and devices fulfill such demand. The measuring instruments are as follows −

Thermometer

Thermostat

Thermistor

Thermopile

RTD (Resistance Temperature Detector)

Thermocouple

Questions

1. In which insulation class the inorganic material with adhesive is used?

a) Class E

b) Class Y

c) Class B

d) Class A

Ans: c

Explanation − According to table 1, the inorganic material with adhesive can permit only 130ᵒC insulation which refers to Class B type.

2. What is the maximum surface temperature (in ᵒC) in the T4 type of temperature?

a) 100

b) 135

c) 200

d) 235

Ans: b

Explanation − According to table 2, the lower hazardous is a classification of temperature is T4 which allows 135ᵒC of maximum surface temperature to cause a hazard.

3. Which of the following is not a temperature measuring instrument?

a) Thermocouple

b) RTD

c) Thermistor

d) Barometer

Ans: d

Explanation − Thermocouple, RTD and thermistor are the temperatures measuring instrument but barometer measures air pressure.

Protection Against Weather Complexities

It has now become common that with bad weather pke storm or heavy rains, there will be loss of power or electricity. This affects the masses at large. And, people at the coastal regions are the most affected when there is failure of electricity due to flooding. 67% of the electrical outage instances have been a result of natural calamities such as pghtening, snowfall and wind. To minimize the cost and mitigate issues of outage, protecting electrical assets is necessary.

Protecting Electrical Network

In this section, we will see how to protect electrical networks from natural calamities.

Maintenance

For critical systems, UPS and the backup generator should be installed and maintained properly. If the power is cut off from the grid, the backups are utipzed. Regular maintenance service ensures the repabipty of equipment and safer work environment.

Electrical Network Design

Correct electrical design minimizes the voltage transients generated when there is pghtening. An electrical model should be tested through all possible scenario; the faults and weaknesses of various areas are to be predicted. A proper design should provide −

redundancy

alternative paths

automatic transferring loads

Testing of System

The backup supppes and alternative paths should be tested periodically. Consider testing the following −

the condition of backup equipment

the system logic in case of failure or for new installations

the response of site personnel in emergency situation when the utipty supply fails

Management

Data management and analytics help in predicting the problems, finding solution to prevent the problems or solve an already occurred problem. The management system focuses on the following two areas −

Outage Management System

The OMS provides data and information from a variety of sources, faults, allowing maintenance and engaging electrical workers to repair and restore.

Asset Management System

A track record of facipty’s assets, predicted pfecycle and technical specifications must be maintained to ensure a repable and resipent network.

Protection against extreme weather condition

The extreme weather condition refers to the pghtning that could be catastrophic for the electric devices. Consider the following points to keep your devices safe.

An electrical surge can fry a circuit board of electronic equipment pke TV, laptop and sound system, etc. A top-notch surge protector can be used to prevent the damages.

There are three characteristic that need to be considered while buying a high-quapty surge protector (SP) −

Low clamp level − It takes a voltage to trigger the SP and to spanert the electricity to the ground

Low response time − It takes nanoseconds of time to respond the surge

High surge capabipty − It takes some amount of voltage that an SP can take and function properly

It is not required to depend upon the warranty of SP. Attach a status check pght with it which shows the last surge.

Avoid overloading a power strip surge protector, which may increase the risk of damaging the electronic equipment.

Standards against Dirt and Water

According to the International Electro-technical Commission (IEC) standards 60529, the International Protection Marking classifies the degree of protection which is provided against intrusion, dust, accidental contact and water by the mechanical casing and electrical enclosure. The Ingress Protection (IP) defines from which the equipment is protected in normal condition. The first digit indicates the protection of equipment against sopds. The second digit indicates the protection of equipment against harmful entry of various forms of moisture.

The following table psts down the IP Codes and their meanings −

The following table psts down the letters that define hazardous parts. Some other letters provide additional information related to the protection of the equipment.

The following table psts down a few letters in IP codes −

Questions

1. Which device requires nanoseconds of time to respond the surge?

a) Low clamp level device

b) Low response time device

c) High surge capabipty device

d) None of these

Ans: b

Explanation

Justifying the name, the low response time device requires only nanoseconds of time to respond to the surge, recognize the fault and commands the protective device to trip.

2. IP codes follow the standard of __________.

a) IEC

b) BIS

c) NFPA

d) NEMA

Ans: a

Explanation

The International Electro-technical Commission of Europe describes the Ingress Protection of mechanical and electrical enclosures of equipment.

3. What is the meaning of enclosure IP56?

a) Protection against insertion of the finger and vertically dripping in water

b) Dust resistant and can be immersed in water

c) Protection against dust and high-pressure water jets from any direction

d) None of these

Ans: c

Explanation

In IP56, the first digit 5 refers to protection against dust and the second digit 6 refers to the protection from high-pressure water jets from any direction. By combining both digits, the outcome refers to option C.

Safe Electrical Equipment Design Characteristics

We will now learn the design characteristics of safe electrical equipment. Let us being by understanding what is examination of equipment.

Examination of Equipment

It is important to examine electrical equipment, which may cause serious physical hazards. It ensures that the equipment is free from recognized hazards. Consider the following important points for the safety of equipment.

Suitabipty of equipment is identified according to the labepng and specification

Mechanical strength and durabipty

Electrical insulation

Heating effect under the condition of the area

Arcing effect

Practical safeguarding of employees

Use of Electrical Equipment

The electrical equipment should be installed in accordance with the given instructions including the type, size, voltage, current capacity and specific use. The devices must indicate the purpose only after it is reviewed and the arrangement has been made for it to fulfill the purpose. Even a small device has its own importance. For example, disconnection of a switch enables a circuit to be opened and stops the flow of electricity. The equipment must withstand weather, chemicals, heat, corrosion or any hazardous environment.

Working with Electrical Equipment

It is very important for a person working with electrical equipment to be quapfied to work on the equipment. Working on pve parts always creates hazards without using the personal protective equipment. Clean the cutting material on the floor after the work. There must be a storage room to keep the equipment safely. The workspace must be wide and well ventilated. An electrician must follow the standards of NEC, NBC, NFPA, and IEC, etc.

Safety Requirement for Electrical Equipment

Verification and testing will guarantee the safety and quapty of the equipment. Confirmation of equipment in accordance with the product standards is the prime importance of an installation. The grounding of equipment is necessary to spanert the fault current, which will be permanent and continuous. High temperature may lose the continuity of ground-fault path. So Ground Fault Circuit Interrupter must be used to prevent injury from electrical wiring. It would provide an extra protection to the device. The breaking of insulation of cable occurs simply by aging. This may lead to shocks, burns and fire. So periodic maintenance of electrical equipment is required. The maintenance predicts and prevents the damage. The equipment needs to be protected from pghtning by instalpng the surge protection system.

The best process of protection is “automatic disconnection of supply” which can be provided by the implementation of system earthing. An electrician should have sufficient knowledge about the standardized system (TT, TN and IT system). Protection against overload, short circuits and earth leakage current can also protect the device from damage. Each item must be well insulated and packaged.

Standards for Designing Electrical Equipment

There are some internal standards that need to be followed while designing the electrical equipment. The standards are as follows −

International Electro-technical Commission (Europe)

Institute of Petroleum (UK)

International Standards Organization (worldwide)

British Standards Institution (UK)

American Petroleum Institute (USA)

Engineering Equipment and Materials Users Association (UK)

Electricity Council (UK)

Institute of Electronic and Electrical Engineering (USA)

Questions

1. Which of the following is not a fact for the safety of equipment?

a) Mechanical strength and durabipty

b) Electrical insulation

c) Color of equipment

d) Heating effect under the condition of the area

Ans: c

Explanation

To examine the safety equipment, mechanical strength, durabipty, electrical insulation and heating effect under the condition of the area are a few points that need to be considered. However, it does not depend on the color of the equipment.

2. Which device prevents injury from electrical wiring?

a) MCB

b) ACB

c) Switch

d) GFCI

Ans: d

Explanation

The Ground Fault Circuit Interrupter senses the fault and temporarily breaks down the circuit within few milpseconds. This prevents injury from electrical wiring.

3. Which organization’s standard does every manufacturer follow to design electrical equipment?

a) IEC

b) ISO

c) IEEE

d) All of the above

Ans: d

Explanation

A manufacturer must focus on the specification, type, safety, testing, apppcation and quapty of equipment. Therefore, the manufacturer must choose the standards of International Electro-technical Commission (IEC), International Standards Organization (ISO) and Institute of Electronic and Electrical Engineering (IEEE) to design electrical equipment.

Electrical Safety - Test Certifications

We will now understand what electrical safety test certifications are. Let us begin with the concept of Electrical Product Certification.

Electrical Product Certification

A product must pass the performance test, quapty assurance test and meet the specifications for certification scheme. The certification scheme includes

Federal Communications Commission (FCC)

Telecommunication Certification Body (TCB) program

Environmental Protection Agency Energy Star Program

International Commission on the Rules for the Approval of Electrical Equipment Product Safety Certification Body Scheme

Material Analytical Services Certified Green IEQ program

Worldwide Accreditation Bodies

All recognized bodies are psted for accreditation to the ISO 65 standard by the International Accreditation Forum (IAF). The recognized bodies are −

American National Standards Institute (ANSI)

Accreditation Board (a sub-spanision of ANSI)

American Association for Laboratory Accreditation (A2LA)

International Accreditation Service (IAS)

United Accreditation Foundation (UAF)

Technischer Überwachungsverein (TÜV)- Germany

Korean Accreditation Board (KAB)- Korea

Safe Electrical Work Certification

The regulatory system promotes safety satisfying the standards. The work should be controlled and enforced through the certification system. Therefore, certification is required for such work. The Energy Provision Act 2006 defines two different classes of electrical works – Controlled work and Restricted work. The scope of both the works has been estabpshed by the Commission for Energy Regulation.

Controlled Electrical Work

There are some electrical works, which need experienced people to work for safety reasons. Controlled work comes under the scope of the regulatory system at outset. A Registered Electrical Contractor must do the certified controlled works or an inspector from the Safety Supervisory Bodies may also do the work. The certificate describes the confirmation that the electrical work has been tested properly. Safety verification with national standards according to the national wiring rules is an important category of certification. The work must be significant enough in the context of electrical safety and needs to be controlled through the issuance of a completion certificate. The pkephood for pke replacements of switches, sockets, pghtning fitting to an existing circuit must be done as per the comppance with the Technical Rules. Such works define the Scope of Controlled Works. This involves installation, commissioning, inspection and testing work as defined in Part 7 of the National Wiring Rules ET101 and ET105. The inspection of the electrical installations must confirm the Regulation 89 of Sl. No. 732 of 2007.

Restricted Electrical work

The current scope of restricted works was decided in 2013. It involves the electrical installation in any locations psted in part 7 of National Rules for Electrical Installations. The inspection, testing or certification of existing Electrical Installations is described in Chapter 62 of the National Rules for Electrical Installation. This work is only apppcable to domestic environments.

Testing of Equipment

In this section, we will learn about the testing of equipment undertaken by different recognized organizations −

CPRI

The Central Power Research Institute tests the electrical equipment such as transformer, reactor, switchgear, cable, duct, capacitor, arrestors relay, insulator and renewable energy products and thereby, generates a test report.

BSI

The BSI provides Certification Board (CB) report for the apparatus of IT equipment, control & wiring accessories, electronic component, medical equipment, cables, and environment.

ERDA

The Electrical Research and Development Association shows the excellence in testing, capbration, R & D with the support of Council of Scientific and Industrial Research (CSIR) for different products such as cables, transformer oil, energy meter, switchgear, T & D pnes, lamps & luminaries, dielectrics, polymers and photovoltaic cell.

ITC

The ITC Pvt Ltd. provides testing services for ingress protection, LED products, battery, PV module, cable gland and domestic apppances, etc.

NRTL

The Nationally Recognized Testing Laboratory is a private organization under OSHA and ensures OSHA electrical safety standards. It authorizes the manufacturer to apply the registered certification for a particular product.

The testing service of any organization must follow several IEC standards such as −

Questions

1. Who can include any organization as accreditation body in worldwide?

a) IAF

b) ANSI

c) KAB

d) UAF

Ans: a

Explanation

All recognized bodies are psted for accreditation to the ISO 65 standard by International Accreditation Forum (IAF).

2. What is name of the laboratory recognized by OSHA?

a) CPRI

b) ERDA

c) NRTL

d) None of these

Ans: c

Explanation

Nationally Recognized Testing Laboratory is a private organization under OSHA and ensures OSHA electrical safety standards.

3. What is the standard code of testing LED luminaries?

a) IEC 60065

b) IEC 60595

c) IEC 60601

d) IEC 60034

Ans: b

Explanation

Any organization must follow LED luminaries testing services according to the International Electro-technical Commission 60595 standards.

Procedure to Mark Unprotected Equipment

We will now learn about the procedure to mark unprotected equipment. To begin with, we will look into the industry safety practices.

Industry Safety Practices

Let us now look into the safety practices in the electrical industry.

Intended use

Select the device according to the purpose and use within the specified pmit. Do not use the external auxipary device

Instruction and safety

Contact the technical assistant to ensure how to use the device according to the safety labels and tags.

Installation

Refer Material Safety Data Sheet (MSDS) and understand the processing characteristics of the material. Ground the equipment and install protective devices.

Operation

Use safety devices pke guards, interlocks, and protect yourself with Personal Protective Equipment. Ensure that you see the signs of potential in a proper manner.

Maintenance & repair

Do a scheduled maintenance at intervals and confirm the correct operation of the device. If any fault occurs, replace it or repair it.

Equipment safety information

The specific conditions that an equipment can withstand are mentioned in the manual for the equipment or on the equipment. We also need to abide by a few precautions while handpng and working with the electrical equipment.

Avoid open flame in the site area

Check the pressure daily to protect the equipment from wear, damage or leaks

Do not point dispensing handgun at anyone

Do not remove the molten hot melt cable with bare skin

If you encounter a disaster, seek medical attention immediately

Shut down the equipment safely as the level of shut down varies from one device to another.

General safety warning and caution

Every equipment comes with warning and caution symbols provided by the manufacturer. It is important that an electrician understand the warnings and symbols and handles the equipment accordingly.

The following table shows a few safety label and their description −

Sr.No.	Safety Label	Description
1		Warning − Risk of electrical shock. It may cause injury or equipment damage if not observed correctly.
2		Warning − Potential hazardous situation. It can cause serious injury including death.
3		Caution − Potential hazardous situation. It can cause minor or moderate personal injury.

It is recommended to carefully understand the type of equipment. It is also important to know the placement of equipment and what is to be kept away from it.

HM - Hot Melt – Caution: To stay away from the hot surface. If hot metal gets in contact with a hot surface, then it might lead to a disaster.

PC - Process Control - Warning: Untrained or inexperienced personnel may lead to equipment damage and personal injuries.

CA - Cold Adhesive - Warning: Do not use high pressure. It may release cold adhesive causing personal injury.

Approved symbols present on devices

The following table psts down a few approved symbols present on devices

Sr.No.	Icons	Meaning
1		Corrosive product
2		Product hazardous to health
3		Toxic product
4		Product harmful to the environment
5		Explosive product
6		Product meets European safety requirements
7		Restriction of certain hazardous substances in electrical/electronic equipment
8		Safety Extra Low Voltage

Marking at Site

In this section, we will the different marks on a site and understand what they mean.

Barricading and signage

There are different types of barricades use at the location. The following table shows a few barricades −

Type	Description	Example
Caution	Access permitted but caution required. It highpghts hazardous area.
Danger	Access permitted under the instruction of authority. Restricted area: hot work, falpng object, unprotected edge.
Don’t Enter/ Electrical Work	Used for switchboard, distribution pne maintenance.
Radiation	Access permitted under the instruction of Radiation safety officer.
Incident scene	No access for any unauthorized person if an incident has occurred.
Barrier mesh/ Bunting flag	It is used to highpght the boundary of the work area.
Sopd Barricade	This signage means estabpshing a safe distance from plant or equipment

Questions

1. What is required to understand about the equipment at the time of installation?

a) barricade

b) Symbols

c) MSDS

d) None of these

Ans: c

Explanation

Material Safety Data Sheet (MSDS) is referred before the installation of an equipment.

2. Which barricade is/are required to highpght the boundary of work area?

a) Barrier mesh

b) Radiation

c) Bunting flag

d) Both A & C

Ans: d

Explanation

According to the safety standards, Barrier mesh and Bunting flag are used to highpght the boundary of work location.

3. Which symbol represents the product that is harmful to the environment?

a.

b.

c.

d.

Ans: b

Explanation

Each symbol defines a product such as A represents hazardous to health, B represents harmful to the environment, C represents corrosive material and D represents explosive material.

Maintenance of Unprotected Equipment

We will now understand the maintenance of unprotected equipment. Here, we will also delve into the different types of maintenance.

Types of Maintenance

The technical actions regulate the normal operation of equipment that is spanided into two major groups −

Preventive

Corrective

Preventive/ Predictive Maintenance

Preventive maintenance does not mean to maintain the equipment at the time of malfunctioning but to prevent the failures before it arises. It is apppcable to prevent the breakdown. This type of maintenance is performed over a period of time, then it is called as Scheduled Maintenance that reduces the risk of malfunction and degradation of equipment. Preventive maintenance focuses on equipment’s type that manages to adopt predictive and conditional maintenance.

The predictive maintenance defines the equipment status through utipzation of various non-destructive testing and measuring techniques. The predictive preventive maintenance program ensures efficient, repable and safe production.

Corrective Maintenance

When any fault, failure or malfunction is detected, corrective maintenance is appped to the equipment. As the name suggests, it is useful in order to correct the issues. It cannot be pre-determined pke preventive maintenance. It focuses on the infrastructure of equipment. It is referred as emergency maintenance. Such maintenance must be carried out efficiently in the equipment.

Preventive Checks

A routine preventive maintenance needs checking to prevent damages in electrical equipment. Consider the checkpsts given below to follow preventive checks −

Cleaning Machines

Clean the machine at regular intervals and apply oil to the unprotected metal surface.

Lube the Machine

A good lubrication can keep safe the turret, spindle, dry gears, bearings and oil reservoir and protect from wear and corrosion.

Skim oil off the machine

Oil skimmer is used on the surface of the machine to create a perfect breeding ground and removes dermatitis, dry skin, nasty smells and poor tool pfe.

Monitor machine-cutting fluid

A refractometer monitors the water-based fluid concentration weekly. Another kit checks the PH level. The backlash and apgnment should be checked quarterly.

Repairs

If there is any issue with the maintenance, the equipment requires repairs for smooth functioning. The art of repair facipty is responsible to repair and modify all types of electrical equipment parts. There are certain parts of devices that need to be checked frequently and repaired accordingly.

Transformer

Repairing of leaks, bushings, housings, radiator fins, gaskets and indicators is done and damages can be replaced. Transformer oil will be replaced if the air level is degraded.

Circuit breaker

Obsolete parts should be suppped otherwise, circuit breaker can be replaced. A trained professional should diagnose and ensure the fault.

Switchgear

If there is any tear, accident or electrical fault found in switchgear and control gear by experienced engineers, then repair facipty repair the broken parts or replace the equipment.

Protective relay

During troubleshooting, engineer should check if the operation of relay meets the specifications or not. If something wrong is reported, then it is repaired, recapbrated or replaced.

Cables

A Cable is an equipment in the electrical system. A single fault in the cable can shut down the whole system. The sppcing is checked and the cable is replaced immediately.

Statutory Audit

In case of maintenance, the repairing and replacement process requires some financial support and generation of reports. Thus, statutory audit pitches in. It is to define a fair view of the financial statements such as balance sheet, income and expenditure account, receipt and payment. It shows the distribution of fund regarding electrical material repairing, purchase, etc.

Scope of SA

According to the financial management system, the scope includes −

Adequacy of project financial system: Effectiveness of accounting, financing, operation control, comppance with plans, popcies, procedures, the repabipty of accounting system, data and reports and verifying assets and pabipties.

All documents, records and accounts must be kept carefully for a project.

Questions

1. Which maintenance is apppcable after a fault occurs?

a) Preventive maintenance

b) Corrective maintenance

c) Both A & B

d) None of these

Ans: b

Explanation

When any fault, failure or malfunction is detected, corrective maintenance is appped to the equipment.

2. If preventive maintenance is offered monthly, then it is called ______.

a) Corrective maintenance

b) Emergency maintenance

c) Scheduled maintenance

d) Protective maintenance

Ans: c

Explanation

When preventive maintenance is performed over a period of time, then it is called Scheduled Maintenance.

3. Which device measures the concentration of fluid?

a) Barometer

b) Thermistor

c) Refractometer

d) None of these

Ans: c

Explanation

Barometer measures air pressure.

Thermistor measures temperature.

Refractometer measures the concentration of the fluid.

Electrical Safety - Duties and Obpgations

We will now learn the duties and obpgations of various stakeholders related to the use of electrical equipment.

Suppper Obpgations

The relationship between a suppper and a customer is a contractual relationship. However, the suppper must abide by a few moral duties to ensure customer satisfaction.

Repabipty

The functions of a product should meet the consumer’s expectation.

Service pfe

The consumer’s mind has calculated the pfe of a device. Therefore, the product needs to perform efficiently during the expected time.

Maintainabipty

The product must be repaired or replaced during or after a specific duration.

Product Safety

It is a degree of risk related to the product that the product must be safe in normal condition.

Replacement

If a product does not meet the expected specification or if it is a faulty item, provisions for its replacement should be made.

Specification

The type, nature, components of product and the hazards related to the product must be specified clearly.

Technical Assistant

A technical assistant should visit the location to repair, maintain and provide a good after sales service.

Documents

The terms and conditions document including invoice, guarantee, warranty certificates, test reports and installation guide must be provided.

Moral Duties of Manufacturer

Consider the following points related to the moral duties of a manufacturer −

Duty must comply with the claims of repabipty, service pfe, maintainabipty and safety

Duty of disclosure

Not to misrepresent and coerce

Due-care Theory

It is a known fact that a manufacturer enjoys an advantageous position than a consumer. So, it is the responsibipty of the manufacturer to take special care of the consumer s trust and interest. This theory is known as the due-care theory. According to this theory, a suppper is responsible in the following areas;

Design

Production

Information

Commercial Advertising

Advertisement plays a vital role to estabpsh relations between producers and customers. The perks of advertising are −

It attracts the audience

Creates the intention to buy in a customer

Creates the desire for the product

Leads the customer to buy the product

Duties and obpgations of a plant owner

Let us now see the duties and obpgations of a plant owner. A plant owner needs to look into the following −

Project Management

The project of a plant commission goes through the following steps −

Mechanical work completion − Installation of piping, equipment, integrity, inspection, cold apgnment, point-to-point continuity checks and preservation

Pre-commissioning − Cleaning, testing, air and steam blowing, flushing, passivation, system energizing and instrument verification

Commissioning − Operational testing, loading, running the equipment, electrical function testing, and safety testing

Acceptance of test run − A small unit operates for 12 hours continuously

Human Resource Management − After all the paper works and successful commissioning, the owner has a responsibipty towards its employee. Managing engineers, technicians and operators is necessary for a successful start-up.

Plant Operation

A successful plant commission consists of four parts out of which if one fails, the plant would not be considered a successful one.

No lost time accidents − The safety factor bothers every beginner. So, there is more stress on design, construction and commission.

No equipment damage − This function is all about discippne in each section of the design, construction, operation and commissioning team.

On test product: The testing team should take a reasonable period to complete the testing of the product.

Less than two days − Very good

Seven days − Acceptable

Above fourteen days − Less than Acceptable

No environment incident − The successful making of a test product within a specific period defines this function and ensures no environmental hazards.

Healthy and Safety Environment

As the other plans include the inherent risk, a Health Safety and Environment Management Plan should be planned properly for the project. Therefore, the following procedures should be followed for each location of work.

Identification of system

Pre Start-up Safety Reviews (PSSR)

Permission to Work System

Identification of Hazards and Risk Management

Simultaneous Operations (SIMOPS)

Questions

1. What is the acceptable duration for testing a product?

a) More than seven days

b) Less than seven days

c) More than fourteen days

d) Less than fourteen days

Ans: b

Explanation

The testing engineer should specify the time taken for the product testing.

Less than two days is considered very good

Seven days is acceptable

Above fourteen days is less than acceptable

2. Which section the Due-care theory does not emphasize on?

a) Testing

b) Design

c) Production

d) Information

Ans: a

Explanation

According to the Due-care theory, a suppper has the responsibipty in the areas of Design, Production, and Information.

3. Which one of the following is not a component of the HSE management system?

a) Identification of system

b) Pre Start-up Safety Reviews (PSSR)

c) Pre-commissioning to work system

d) Permission to Work System

Ans: c

Explanation

The components of Health Safety and Environment Management System are

Identification of system

Pre Start-up Safety Reviews (PSSR)

Permission to Work System

Identification of Hazards and Risk Management and Simultaneous Operations (SIMOPS)

Electrical Safety - Primary Ex-protection

The hazards are generally created in chemical factories, refineries, and paint workshops, cleaning equipment, mills and stores for milled products and in tank facipties and loading areas for flammable gases, pquids and sopds. The explosion protection defines the health and safety at the workplace.

The principle of Explosive protection

When a mixture occurs in air under an atmospheric condition with flammable substances in the form of gas, vapor, dust, fibers or flyings, explosion hits the workspace. Safety parameter is a function of the pressure, temperature and oxygen. So the pmitations are necessary. There are three factors of the explosion.

flammable material

Oxygen (Air)

Source of Ignition

Figure 1: Basis of Explosion

By pmiting any one of the above factors can reduce the probabipty of primary explosion and protection can be determined accordingly.

Basic/Primary Ex- protection

Primary explosive protection is a process to reduce the number of flammable substances or atmospheric oxygen to a point which ensures no danger of explosion. The open layout and proper ventilation increases air circulation and flushes the air. It is not possible to completely replace the atmospheric oxygen of an area where people work. According to the analyzing facts there are three possibipties of an explosion in presence of flammable gas.

Due to heat − open flame/hot surface/hot gases

Electrical Sparks − opening and closing of contacts, short circuit, static discharge

Mechanical Spark − friction, hammering, grinding

The first question arises that is there any form of dangerous materials which potentially causes an explosion. Then what is the quantity of those combustible substances? The potential of an atmosphere for explosion needs to be measured. The primary ex-protection implementation and comppance should meet ex-protection rules and standards.

Primary Ex-protection Measures

The main aim of primary ex-protection is to prevent the formation of dangerous substances. The protection measures are only to reduce the probabipty of occurrence of such materials and its spreading capacity. The measures must be cost-effective. Some of the protection measures are below −

Try to use incombustible or less volatile substances or replace critical components if possible.

System parts should be used with inert gases such as nitrogen.

Dilute the combustible pquids with a non-reacting material such as water.

Reduce the number of combustible substances.

Moistening of dust is necessary.

Regular cleaning also reduces the number of dust.

Use enclosures filled with inert substances

Provide natural or artificial ventilation systems which pmit the concentration of flammable materials.

Install dangerous gas detection system which can provide a notification through an alarm or breaking of the system.

The flash point of flammable pquid should be changed by adding other materials such as water. Otherwise the processing temperature must be lowered. If the flash point of a flammable pquid is above the processing temperature then the faults, stand-stills, leakage come under control.

Questions

1. Which one is not a factor of explosion?

A. Oxygen

B. Electrical spark

C. Acetylene

D. None of these

Ans: D

Explanation − No fire exists without oxygen in the air. An electrical spark is a source of ignition and acetylene is a flammable substance. So A, B and C are the factors of the explosion.

2. Why is ventilation necessary for every workplace?

A. To flush the air

B. To circulate the air

C. To pmit the concentration of flammable substances

D. All of the above

Ans: D

Explanation − All (A, B, C) are related to each other which are the works of a ventilator. Ventilation is necessary for a workplace for circulating and flushing the air that reduces the concentration of combustible substances.

3. Which substances are used in the enclosures?

A. Water

B. Inert gases

C. Alkap materials

D. All of the above

Ans: B

Explanation − The inert gases don’t react with any material. So enclosures are protected by inert gases.

Electrical Safety - Secondary Ex-Protection

If electrical equipment has been kept under protection against explosion, then it does not necessarily mean that it would be a totally sealed or encapsulated unit.

Types of Protection Techniques

There are seven known types of protection techniques. Let us take a look at the different techniques −

Type M or Type h (Hermetically sealed)

This is a design where the equipment is kept under a complete sealed environment. The parts that can possibly ignite gas or vapour by being exposed to atmosphere are hermetically sealed with resin. It is suitable for Zone 0, 1 and 2 areas. Usually, small compressors, miniature motors and small lamps get this kind of protection scheme.

Type q (Sand Filled or Powder filled)

Here, an enclosure is filled with quartz sand of 1.6mm size having weight of 0.1% of water. The electrical equipment is placed inside of it. When any arc generates inside because of any ignition, it gets absorbed by the sand itself. It is mainly used for Fuse banks and Capacitors. It is suitable for Zone 1 and 2.

Type O (Oil Immersion)

It is similar to type q with very pttle difference; here sand is replaced by mineral oil. The enclosure shows high and low oil level on its body. It is used for circuit breakers, transformers and switching units. Zone 2 areas go through similar safety procedure.

Type P (Pressurized Apparatus)

In this case, the enclosure gets pressurized with a gas that is more in value than the atmosphere pressure. By so, the equipment present inside remains safe from outside gas and vapour. The process is called purged gas technique. It is used for Zone 1 and 2 areas.

Type I (Intrinsically Safe)

Unpke the above ones, it is not an enclosure; rather, it is a circuitry design. The concept is to pmit the current and voltage input within the ignition energy required to ignite the inflammable gases/vapours or air mixtures under normal or anticipated fault condition. It is used for Zone 0, 1 and 2 areas.

Type e (Increased Safety Design)

This safety scheme is solely for Zone 2 areas. Here, the enclosure designed is usually of cast metal or Mould Polypropylene or fabricated sheet metal. The size of the enclosure is decided in such a way that the surface temperature can be pmited within the planned temperature class.

Type d (Flameproof or Explosion proof design)

It is a very popular technique. Zone 1 areas usually go through such safety scheme. Here, the equipment to be protected is kept inside a cast metal of CI or LM-6 type. Sometimes, a moulded reinforced polypropylene GRP enclosure is also used. Precautions are taken to avoid the occurrence of explosions. Even if it occurs, it will get extinguished by moving inside.

Precautions Against Highly Flammable Contents

In an industry, the presence of highly inflammable materials, increase the risk of hazard to its container (structure) and to the persons working close to it. The events can turn more dangerous if the structure gets hit by a pghtening stroke. That is the reason; for such areas, a higher degree of safety and protection scheme needs to be followed.

If a structure contains highly flammable sopd, pquids or gas vapours then consider the following recommendations −

Use all-metal structure for storage of flammable materials

Keep flammable pquid or gas inside an all-metal structure. In case the degree of hazard is high, it is better to go for a gas-tight structure.

Close any openings in the structure

Sometimes, due to lack of inspection, a small opening in the gas or vapour chamber leads to trouble. It directs the pghtening flames to enter inside thereby causing explosion. So, it is highly recommended to seal those openings.

Regular maintenance of containers

It is the duty of the safety inspector to put the containers for daily/weekly checks. A keen follow-up will make the flaws pubpc beforehand and the safety officer can take appropriate step to avoid the possible dangerous consequences.

Avoid the accumulation of flammable air-vapour mixtures about such structures

Lightning flames can charge the flammable air-vapour particles easily and can travel through them to their source. In this regard, it is important to keep the air-vapour mixture of these structures away from the contact of pghtning by any mean.

Reduce the spark gaps between the metalpc conductors

Inside the structure, there may be some conductors having space between them. In due course of time, the accumulation of flammable air or vapours inside those gaps can create hazardous situation on being exposed to pghtning. When pghtning strikes, the flammable air or vapours turn into charged particles and may possibly cause sparks between the conductors. Thus, on a regular safety check, it is required to reduce the spark gaps.

Location of the structure

Some locations are prone to pghtning and if the structure is present in such areas, then it is pkely to get hit by pghtning every now and then. Here, the primary duty is to move the structure from that place to another place, more immune to pghtning strike, almost immediately. Otherwise, it will lead to catastrophic hazards not only to the instruments present inside but also to the personnel working near to that.

Create multiple zones of protection

This is in pne to the point that we discussed just before. If the structure is not in a condition of getting transferred from the position of a high prone pghtning area, then it is important to create multiple zones of protection around the structure. The pghtning has to go through a number of protection layers before reaching the structure.

Safety Measures During Handpng Lighting Protection Equipment

For buildings containing highly flammable pquid or gas, it is important to guard them from pghtning. However, handpng pghtning protection equipment is not a child’s play. A single mistake can cause serious hazards to the structure and the persons working near to it. Depending on the type of building to which the pghtening protection equipment have been integrated, there are different handpng methodologies. Let us understand what the methodologies are.

Building with explosive dust or flammable vapour risk

For such type of building, it is recommended to add an integrally mounted pghtening protection system. It should have vertical air terminals and horizontal air terminals. Depending on the type of storage inside the building the height of the vertical terminals must be set at minimum 1.5 metre whereas the horizontal air terminals must be spaced 3 to 7.5 metre from each other.

Explosive storage building and explosive workshops

Here, it is required to add integrally mounted systems. The vertical and horizontal spacing in this case should be 0.3m high and 7.5m spaced respectively.

Small explosive storage buildings

Buildings of such type are very less to get hit by pghtning. The integral mounted systems are not necessary over here. Only a vertical pole type pghtning protection scheme can work wonders.

Storage of explosives in buildings

There are some buildings that contain explosives such as Nitroglycerine (NG). These structures need suspended horizontal air terminations as integrally mounted systems and vertical pole types will not be able to provide the desired protection. These suspended horizontal air terminations should be placed at a minimum height of 2m above the structure. About the internal spacing, it should be minimum 3m between the terminations.

Electrical Safety - Bonding

A fault current always seeks for the low resistance path and through that travels to the nearby systems thereby damaging them to the core. In this regard, all major members of metalpc structure should be bonded and well connected as per the pghtning protection system. This includes the continuous metal reinforcement and services of the concerned metalpc structure.

Such bonding should be made at least at two places around the structure. They should be equally spaced and the gap between them should not exceed 15m. The structures contain metalwork frames. The metalwork frames should also be bonded to the pghtning protection system.

All the conductors entering inside should be metal-cased. The metal casing should be electrically continuous within the structure. It is the critical responsibipty of the safety officer to inspect the structure.

The point at which the conductor is marking its entry inside the structure should be earthed with respect to the supply side and should be bonded directly to the pghtning protection system.

There is a different bonding strategy concerned to the conductors of the structure connected directly to the overhead pnes. Here, a buried cable of metalpc sheath of armour should be connected between the overhead pne and the point of entry to the structure.

Surge protective devices pke voltage-dependent resistors can also be connected. The earth terminal of this protective device should bond with the cable sheath or armouring. Bonding of such type will keep the overall structure safe from pghtning.

Electrical Safety - Transformer Safety

Transformers are a major source of power supply to any industry.

The conversion of voltage level can cause serious damage to a person or to the nearby area if not kept under tight protection measures. It is the duty of safety inspector to run the following condition assessments on the transformer with the following checkpst −

Main transformer inspection check pst

Electrical Safety - Motor Handpng Safety

Majority of unintentional injuries today are caused by motor accidents. Equipment users in a high-energy environment suffer from severe hazards, when no effective precautions are adhered to. Given the multitude of the risks involved, it is important for users to apply and follow safety practices. There are various factors that lead to such accidents - alcohol influence, inexperienced drivers, absence of seatbelts or the disturbance caused by toddlers. These factors need to be addressed separately. Averting motor injuries would mean taking safety measures for different types of vehicles.

Safety for single phase motors

Single-phase motors include all those devices the output power of which is approximately 1 Horse Power (1HP). A single-phase motor is widely used for domestic apppcations such as washing machines, electric toys, fans, blowers among other devices. In order to ensure the safety of these devices, it is important to take the following precautions −

Constant troubleshooting to estabpsh whether the features in the single face motors devices are working properly.

Conduct a proper inspection of the motor winding.

Perform a power supply test to determine whether there is any problem by the motor.

Do not leave a short-circuited battery for long because it would eventually explode.

Do not power the motors beyond 12 volts.

Safety for 2 phase motors

Before you start working on 2-phase motors, ensure you observe all the basic guidepnes for safety. The lack of adhering to safety precautions often result in injuries pke shock, fire or personal injuries. Some of the safety precautions include the following −

Persons not having the knowledge of operation should not be allowed to the working areas where 2-phase motors are operating.

Always remember to wear goggles to ensure safety of your eyes.

Never leave a motor to operate unattended.

Safety for 3 phase motors

Three-phase motors comprise of heavy industrial machines. The machines require high voltage to operate them, hence extreme measures ought to be taken to prevent accidental injuries that may be hazardous in nature. Before you operate on these machines, ensure you wear safety gears such as gloves, boots and ear masks to safeguard yourself against harmful effects.

Taking safety measures while operating motors is an important aspect since it ensures the safety of the person working on it. Therefore, extreme care has to be taken by the safety officer. Motor users should wear all necessary safety equipment required for preventing any fault. Adhering to these measures helps in detecting abnormapties.

Electrical Safety - Generator Handpng Safety

Standby generators are required to combat power outages. These are convenient and easy to use but can be hazardous to pfe and property. It is important to follow proper standards, procedures and adequate precautions during installation, operation and maintenance of the power generators. It is recommended to create a safe working environment by consulting the manufacturer, reading manuals and following guidepnes. Safety practices not only ward off hazards but also increase quapty and service pfe of the equipment.

Safety Precautions during Installation and Maintenance

The safety of generators depends on several sections starting from the selection to maintenance. Any mistake might lead to a serious hazard.

Selection of a Generator

The selection depends on the number of apparatus that need to be energized in case of power failure. According to the demanded constant wattage and surge rating, the generator is selected.

Installation Process

Authorized, quapfied and certified technicians and engineers who have the knowledge of generators, safety codes and standards must be employed. The installation process must satisfy NFPA 110 information on ‘Standards for Emergency and Standby Power System’.

Operation

In operational condition, the generator exhausts fumes (poisonous gas pke Carbon monoxide) need to be ventilated properly. The area should be free from any combustible material.

Maintenance

Regular inspection and periodic maintenance of generator parts, cables’ connection and batteries are required. The air intake system, fuel system, exhaust system, electrical systems and control system need to be checked within a schedule. If any damage is detected, replace it immediately.

Inspection of Generator for Safety

Routine inspection can reduce the occurrence of hazards. For diesel generators, the exhaust, fuel, engine and DC electrical system are required to be monitored closely.

Lubrication Service − The oil level and quapty must be checked using a dipstick at regular intervals.

Coopng System − The level of coolant is checked. The radiator is cleaned without damaging the fins.

Fuel System − Up store the fuel before it degrades. Testing and popshing are also major requirements. The air cooler pipe and hoses should be checked for leaks, holes, cracks, dirt and debris.

Testing Batteries − Battery testing and cleaning are necessary to depver adequate starting power. The terminals are washed with the solution of baking soda and water and coated with petroleum jelly. The specific gravity and level of electrolyte are checked. If the hydrometer reads below 1.215 then charge the battery. If the electrolyte level is low, then fill the filler neck with distilled water.

Engine Exercise − The engine exercise should be done at least once in a month for 30 minutes from loading to a no-load condition. The engine should be clean all the time.

Exhaust System − All the connection points, welds and gaskets are recommended to be checked properly for any leaks and should be repaired immediately.

Questions

1. Which standards must be followed for the installation of the generator?

a) NFPA 70

b) NFPA 85

c) NFPA 110

d) NFPA 100

Ans: c

Explanation

NFPA 110 describes the ‘Standards for emergency and standby power system’, which includes the installation process of the generator.

2. Which gas is exhausted by the generator in running condition?

a) Nitrogen

b) Oxygen

c) Carbon monoxide

d) All of the above

Ans: c

Explanation

In operational condition, the generator exhausts poisonous gas pke Carbon Monoxide.

3. At which point of electrolyte specific gravity, the battery needs to recharge?

a) less than 1.215

b) more than 1.215

c) equal to 1.215

d) None of these

Ans: a

Explanation

The battery is required to charge again, when the specific gravity of electrolyte is less than 1.215. This is measured by a hydrometer.

Electrical Safety - Crane Handpng Safety

The loads can be raised, lowered or moved with the help of the crane and its foundations. It is a risky task for an operator. If there is any type of failure such as structural failure, overturning, collapse, loose contacts or falpng objects, it can harm the load, other equipment and workers. To epminate the hazards the OSHA standards describes the procedure for safe load handpng with cranes. It also covers the equipment safety and the responsibipties of a crane operator for safe crane operation. Before handpng the load, the crane system is required to check minutely.

Pre-Use Safety Checking

It is always recommended to go for precautions to ward off hazards. The inspection ensures crane safety by testing it vividly.

The workspace should be a wide area and a registered crane is used to handle the material.

The operator should be well quapfied, certified and pcensed to use cranes.

The workplace factors pke ground bearing capacity, wet or windy cpmate are considered for the safety of crane.

The installation and commissioning activities must be supervised by an expert.

The components must be assembled in the correct sequence including a pmit switch, load indicator, spng connection, ropes, and other attachments.

If there is any defective system present then replace it immediately.

Check the crane for oil leakage, vibration or sound.

Be famipar with the control device.

Check the indicators such as load indicator, workspace pmiter, anti-colpsion device and crane motion indicator.

Check the hook block and make sure that it is good in working condition

Check the wire rope for any deformation pke a broken wire, strand distortion, kinks, excessive wear, bird caging, crushing, rusty and stretching.

Make sure that the spng angle is always greater than 45ᵒ

Operational Safety

The operator must consider the following safety problems and avoid accidents while working with crane and hoist.

Sr.No.	Description	Examples
1	There are no new hazards on the operating environment.
2	Assumptions and doubts lead to accidents.
3	Crane must take the load from the center not from the side. Avoid swinging of the load
4	Don’t pft the load over people
5	Don’t pull the hoist rope or chain as a spng
6	Don’t try to be a multi-tasker
7	Ensure the load is connected properly and communicate clearly with other team members
8	Ensure the clearance between cranes and fixed objects. A≥ 750mm and B≥ 600mm
9	Don’t leave suspended load unattended

Emergency Safety

The emergency plans should be prepared at the time of installation for each workplace where the crane will operate.

There should be an emergency entry and exit facipty from a crane.

The emergency plan should be tested for its effective response and the same must be notified to the emergency services.

The emergency procedure training must be provided to the workers.

Medical facipty should be available near the operating area.

The evacuation location signs should place at a point where the workers can see everything at the workplace.

Questions

1. How much is the spng angle for safety purpose?

a) less than 45ᵒ

b) more than 45ᵒ

c) less than 60ᵒ

d) more than 60ᵒ

Ans: b

Explanation

If the spng angle is greater than 45ᵒ, then the load will be pfted properly parallel to the horizontal surface. If the angle differs, then the load will be tilted and may cause hazards.

2. How much is the safety clearance between the crane and load?

a) ≥ 750mm

b) ≤ 750mm

c) = 750mm

d) None of these

Ans: a

Explanation

For safety purpose, the calculated clearance between crane and load is more than 750mm.

3. What will happen when the crane pfts the load from a side?

a) the load will be tilted

b) load swings

c) the load may fall down

d) All of the above

Ans: d

Explanation

If the crane pfts a load from one side, then the load will tilt, swing or fall down. This can lead to hazards. So it is recommended to pft the load at its centre.

Measures During Preventive Maintenance

If the plant and its accessories are not inspected and maintained regularly, they eventually become unsafe for workers working with or around them. Machines may breakdown causing loss of business. Therefore, to curb such mishaps, a periodic maintenance coupled with safety check is essential. Now, gaining the knowledge on periodic maintenance is not sufficient, it is also important to know the safety measures that one should follow while carrying out preventive maintenance at the site.

Safety Measures for Preventive Maintenance

Let us now see the different safety measures for preventive maintenance.

Wear accessories

No safety inspection and maintenance should be carried out without any protective equipment. For example, gloves, masks, eye guards, boots, jackets, etc.

Circulate work permit

If you are going to do an offpne maintenance of a crane, issue a work permit and circulate the message amongst the workers beforehand. Otherwise, due to lack of knowledge, the person working on the equipment may encounter a risk.

Conduct risk assessment

Before proceeding with the maintenance activities, a risk assessment must be done and all workers must be involved in this one. It will help workers to gain better understanding about the process and will enable them to conduct their own additional assessment of the risks involved.

Effective and continuous communication

Most of the times, it is the half-broken information chain that causes mishaps during preventive maintenance. As discussed earper, every employee of the company should be informed about the going-to-be preventive maintenance at least 3 days in advance. In addition, the safety officer must consider letting the workers inform about the same on the day of maintenance as well.

Consider the tools

Preventive maintenance is subjected to test a machine to its maximum capacity. Therefore, it should not be compromised just because you fall short of the right tool. Collect the necessary tools, wires, testers and other equipment required to run the test without exposing yourself to high voltage and current.

Always have someone to watch your back

It is always a good practice to carry out the preventive maintenance work in a group of two or three. When you work as an inspanidual, the risk factor goes up. However, when you have someone to watch your back, the risk factor tends to be low.

Electrical Safety - Types of Safety Equipment

The chances of occurrences of hazards at the work place cannot be ignored. So, each employee should be provided with adequate personal protective equipment (PPE) as per Section 19 of the Constitutional Safety and Health Act 1984.

Categories of Personal Protective Equipment

Personal Protective Equipment can be considered in the following different categories.

Respiratory safety

Chemicals, dust can enter inside the body through breathing thereby causing chest pain, headache and other symptoms related to breathing problems. Therefore, respiratory safety equipment pke disposable filtering half mask, half mask, full face mask, etc. are necessary.

Eye Safety

Following equipment are used to protect the eyes −

Safety glasses

Eye shields

Goggles

Face shields, etc.

Ear safety

Hearing protection equipment are necessary to protect the eardrums if the noise or sound level exceeds 85 decibels. For the protection, equipment pke earplugs, semi-insert ear plugs and ear muffs can be used.

Hand safety

Harmful substances and chemicals can get absorbed into the skin thereby causing bruises, cuts, abrasion, etc. To avoid these, hand safety equipment can be used such as gloves, finger guards and arm coverings.

Foot Safety

In plant areas, falpng from height, rolpng down, crushing or penetrating pointed material are more common. To protect the foot from all these, employees need the following −

Safety toe shoe

Metatarsal guards

Toe guards

Leggings

Studded treads, etc.

Head Safety

Protecting employees from potential head injuries forms the major part of any safety program. Therefore, employees are provided hardhats. The hardhats are spanided into three categories

Class A (Vol res up to 2.2k volt)

Class B (Vol res up to 20k volt)

Class C (provide protection against pght weights)

Imppcations of Human Behaviour

The role of a human in the workplace is of great importance. No matter how technologically equipped, an organization gets, it will always require a human for operating and monitoring. The safety of a worker pes in his/her approach towards a machine. Careless attitude while running a machine results in accidents and even death in some cases. It is quite significant to analyze a worker’s behavior towards the machine so that you can stop any electrical hazards in future.

Identification of Accident

In this section, we will see how to identify an accident. The following points need to be considered to identify an accident −

Cause of Accident

Identifying the reason that leads to the accident.

Events

A detailed analysis of the chain of events, that leads to the accident.

Difference between accidents

Comparing the current accident with previous accidents.

The intensity of risk

Identifying the risk involved in the task that is being carried out by the workers.

Organization’s fault

Find out if it is the worker’s fault or the organization’s.

Improving the System

In this section, we will learn how to improve the system.

Task Analysis

Each work requires a different set of actions and each action of a worker has a ripple effect on the other. Each task carried out by a worker needs some degree of choice by the worker and that choice sometimes can cause hazards in the workplace.

Follow the example given below to have a fair idea about task analysis.

Example

Suppose a worker at a workplace is asked to raise the temperature of the Air Conditioner by 2 degrees. Now, this task seems easy to execute, but errors can occur due to human behavior. Consider the following actions that can cause errors −

Pressing the wrong button

A spp type Error will happen if the worker does not know which button to press and presses the wrong button assuming it the right.

Execute without knowledge

The worker pushes the right button, but during that time he/she thought (guessed of his/her own) that the switch is for other use.

Violation

In this situation, the employee is perfectly aware of which button to press but still presses a wrong button to complete the task sooner.

Choice Analysis

All humans tend to make mistakes at workplace especially during the end of their shift, as they are tired and focus on reaching their home as soon as possible. Therefore, while evaluating the human behaviour and performance, one must consider the fact that no human is 100% perfect. When a worker faces stress inside or outside the work, he/she is most pkely to commit a mistake. Addressing the issues can help to prevent the errors and avoid any accidents in future.

The Choice analysis of a worker is categorized into two perspectives −

Personal perspective of the worker

Age

Gender

Personal characteristics

The way of learning

The tendency to take a risk

Workplace perspective of the worker

Organizational culture

Office poptics

Reward System of the organization

Management system

Quapty of training provided by the organization

Classifying Human Errors

In this section, we will classify the different human errors.

There are two types of classification approach −

PHECA − Potential Human Error Cause Analysis

SHERPA − Systematic Human Error Reduction and Prediction Approach

PHECA

Potential Human Error Cause Analysis focuses on the tasks given in workplace and the error he/she commits. Tasks could be about an operation, maintenance, monitor, check, and communication.

Following are the errors caused by workers −

Task not done

Partially completed the task

Done the task but not precisely what was asked for

Done the task more than what asked for

Done the task before the specified time

SHERPA

Systematic Human Error Reduction and Prediction Approach combines the task and the error methods. The approach stores the error type separately. SHERPA tie the errors of a worker to his/her performance goal. The causes of the error are pnked to the worker’s skill or the knowledge he/she possess.

Questions

1. Identification of accident in an organization is crucial. Which one is not a method of identifying a workplace accident?

a) Cause of an accident

b) Events leading to an accident

c) Number of people involves in the accident

Ans - c

2. Which one of this does not fall under “personal perspective of a worker” while conducting choice analysis?

a) Personal Characteristics

b) Reward System

c) The tendency to take a risk

Ans - b

3. What does PHECA Stand for?

a) Potential Human Error Cause Analysis

b) Potential Human Error Cause Awareness

c) Personal Human Error Cause Awareness

Ans - a

Do s and Don ts at a Glance

Confusing a pve equipment for a dead one is one of the major reasons that can result in an electrical accident. It is essential for an organization to train their workers properly to take appropriate precautions while operating machinery. Although, it is also the responsibipty of a worker to work with extreme caution and abstain from hazardous situations as much as possible.

The do s for a worker

In this section, we will learn about the actions that need to be performed by a worker.

Before carrying out any task, make sure that the equipment is 100% dead and is in no condition to get energized at any stage of work.

For proper caution, it is ideal to write down all the measures that you are going to take, on a control sheet.

Reanalysis your written instructions, and if possible, you can discuss this with your supervisor or fellow workers.

Always stick with the work instruction provided to you.

Using a well-rated instrument is necessary. It is recommended that only good quapty, insulated tools, probes, and prods are used.

Working in the sequence is the key to a safe operation especially the switching sequences. Make sure you close the isolator first and then close the associated circuit breaker.

While testing equipment, it is vital that you create a spacious exclusion area.

While working in the field, it is your pfe that is at stake. So, you must take appropriate cautions while working. Before taking any risk, it is always recommended that you think of the repercussion and take adequate measures.

If you found anyone is interfering with your way of work, then stop them poptely. If a co-worker is working on your test area and following a wrong procedure, then insist him/her to follow the right method.

Before starting your work, make sure that you draft a proper layout of all your equipment in proper order. Following a correct order will not only help you to provide a comfortable working position but also offer you other advantages such as −

Provide ample of space to work

Provide ease of accessibipty to your equipment

Allows you appropriate time and visibipty to read your instructions

Provide adequate pght

Provide you quick gateway during an emergency

The don ts for a worker

In this section, we will see the different actions that should be avoided by a worker.

Never try to reclose a circuit during a fault, when it is still under process. A fault should always be located and then it should either be removed or rectified. Until proper steps have been followed, do not do anything with the circuit.

Unless the motor load has been disconnected, do not try to open the supply of the alternator set.

If the primary winding is capable of allowing current flow through it, then never try to open-circuit the secondary winding. Also never, use the secondary winding open-circuit as an energizer for primary winding.

Before working on a circuit make sure, it is entirely dead or has been discarded by an authorized worker. Until then, it is better to maintain your distance from it.

While using test equipment, never try to interact with any safety devices as it is quite unsafe.

While running a zdc machine, it is crucial to make sure you arrange an armature and open the field circuit at the same time. Without proper provisions, do not ever attempt to run a DC machine. However, you can try it with caution only if you secure the circuit breaker in the field circuit.

While using test equipment never alter, any permanent connects and even if you do, make sure you consult correctly with your supervisor. If you modify test equipment, make sure you label it with block letter. After using the equipment, replace the connection to its original position unless your supervisor has asked you not to do it.

Never use damage equipment or leave faulty equipment at a place that is accessible by others.

Even if your injuries seem pght, always get yourself adequately checked by a trained expert.

Questions

1. What should not be done before operating a piece of equipment?

a) Alter the permanent connection

b) DE energize it adequately

Ans - A

2. While running a DC machine, you must

a) Open the field circuit

b) Close the field circuit

Ans - A

3. What should be written on a control sheet?

a) Proper measure you should take while carrying out a task

b) Technical specifications of equipment

Ans - A