IONIZING RADIATION IMPACT TO BODY
What Are The Biological Effects of Ionizing Radiation?
Information on the biological effects of ionizing radiation comes from animal experiments and from studies of groups of people exposed to relatively high levels of radiation. The best-known groups are the workers in the luminising industry early this century who used to point their brushes with the lips and so ingest radioactivity; the survivors of the atomic bombs dropped on Japan, and patients who have undergone radiotherapy.
Evidence of biological effects is also available from studies of certain miners who inhaled elevated levels of the natural radioactive gas radon and its radioactive decay products. The basic unit of tissue is the cell. Each cell has a nucleus, which may be regarded as its control centre.
Deoxyribonucleic acid (DNA) is the essential component of the cell’s genetic information and makes up the chromosomes which are contained in the nucleus. Although the ways in which radiation damages cells are not fully understood, many involve changes to DNA.
There are two main modes of action. A DNA molecule may become ionised, resulting directly in chemical change, or it may be chemically altered by reaction with agents produced as a result of the ionisation of other cell constituents. The chemical change may ultimately mean that the cell is prevented from further division and can therefore be regarded as dead.
Very high doses of radiation can kill large numbers of cells. If the whole body is exposed, death may occur within a matter of weeks: an instantaneous absorbed dose of 5 gray or more would probably be lethal (the unit gray is defined below).
If a small area of the body is briefly exposed to a very high dose, death may not occur, but there may be other early effects: an instantaneous absorbed dose of 5 gray or more to the skin would probably cause erythema (reddening) in a week or so, and a similar dose to the testes or ovaries might cause sterility.
If the same doses are received in a protracted fashion, there may be no early signs of injury. The effect of very high doses of radiation delivered acutely is used in radiotherapy to destroy malignant tissue. Effects of radiation that only occur above certain levels (i.e. thresholds) are known as deterministic. Above these thresholds, the severity of harm increases with dose.
Low doses or high doses received in a protracted fashion may lead to damage at a later stage. With reproductive cells, the harm is expressed in the irradiated person’s offspring (genetic defects), and may vary from unobservable through mildly detrimental to severely disabling.
So far, however, no genetic defects directly attributable to radiation exposure have been unequivocally observed in human beings. Cancer induction may result from the exposure of a number of different types of a cell. There is always a delay of some years, or even decades, between irradiation and the appearance of a cancer.
It is assumed that within the range of exposure conditions usually encountered in radiation work, the risks of cancer and hereditary damage increase in direct proportion to the radiation dose. It is also assumed that there is no exposure level that is entirely without risk.
Thus, for example, the mortality risk factor for all cancers from uniform radiation of the whole body is now estimated to be 1 in 25 per sievert (see below for definition) for a working population, aged 20 to 64 years, averaged over both sexes5. In scientific notation, this is given as 4 10 2 per sievert.
Effects of radiation, primarily cancer induction, for which there is probably no threshold and the risk is proportional to dose are known as stochastic, meaning ‘of a random or statistical nature’.
WORKING ON TRANSFORMERS AND CIRCUIT BREAKERS SAFETY PRECAUTION TIPS AND TUTORIALS
SAFETY PRECAUTIONS ON WORKING ON TRANSFORMERS AND CIRCUIT BREAKERS
What Are The Safety Precautions on Working on Power Transformers and Circuit Breakers
Take the following safety precautions when working on transformers and circuit breakers:
• Prevent moisture from entering when removing covers from oil-filled transformers.
• Do not allow tools, bolts, nuts, or similar objects to drop into the transformers. Tie tools or parts with suitable twine.
• Have workers empty their pockets of lose articles such as knives, keys, and watches.
• Remove all oil from transformer covers, the floor, and the scaffold to eliminate slipping hazards.
• Exhaust gaseous vapor with an air blower before allowing work in large transformer cases because they usually contain some gaseous fumes and are not well ventilated.
• Stay away from the base of the pole or structure while transformers are being raised or lowered.
• Ensure that anyone working on a pole or structure takes a position above or well clear of transformers while the transformers are being raised or supported with blocks.
• Ground the secondary side of a transformer before energizing it except when the transformer is part of an ungrounded delta bank.
• Make an individual secondary-voltage test on all transformers before connecting them to secondary mains. On banks of three transformers connected Y-delta, bring in the primary neutral and leave it connected until the secondary connections have been completed to get a true indication on the lamp tests.
• Disconnect secondary-phase leads before opening primary cutouts when taking a paralleled transformer out of service. Do not disconnect secondary neutral or ground connections until you have opened the primary cutouts.
• Do not stand on top of energized transformers unless absolutely necessary and then only with the permission of the foreman and after all possible precautions have been taken. These precautions include placing a rubber blanket protected with a rubbish bag over the transformer cover. Do not wear climbers.
• Treat the grounded case of a connected transformer the same as any grounded conductor. Treat the ungrounded case of a connected transformer the same as any energized conductor because the case may become energized if transformer windings break down.
• Ensure that the breaker cannot be opened or closed automatically before working on an oil circuit breaker and that it is in the open position or the operating mechanism is blocked.
• Ensure that metal-clad switching equipment is deenergized before working on it.
• Ensure that regulators are off the automatic position and set in the neutral position before doing any switching on a regulated feeder.
• Do not break the charging current of a regulator or large substation transformer by opening disconnect switches because a dangerous arc may result. Use oil or air brake switches unless special instructions to do otherwise have been issued by the proper authority.
• Do not operate outdoor disconnecting switches without using the disconnect pole provided for this
purpose.
• Ensure that all contacts are actually open and that safe clearance is obtained on all three phases each time an air brake switch is opened. Do not depend on the position of the operating handle as evidence that the switch is open.
• Do not operate switches or disconnect switches without proper authority and then only if thoroughly
familiar with the equipment.
• Remove potential transformer fuses with wooden tongs. Wear rubber gloves and leather over gloves.
• Do not open or remove disconnect switches when carrying load. First open the oil circuit breaker in series with the switches. Open disconnect switches slowly and reclose immediately if an arc is drawn.
What Are The Safety Precautions on Working on Power Transformers and Circuit Breakers
Take the following safety precautions when working on transformers and circuit breakers:
• Prevent moisture from entering when removing covers from oil-filled transformers.
• Do not allow tools, bolts, nuts, or similar objects to drop into the transformers. Tie tools or parts with suitable twine.
• Have workers empty their pockets of lose articles such as knives, keys, and watches.
• Remove all oil from transformer covers, the floor, and the scaffold to eliminate slipping hazards.
• Exhaust gaseous vapor with an air blower before allowing work in large transformer cases because they usually contain some gaseous fumes and are not well ventilated.
• Stay away from the base of the pole or structure while transformers are being raised or lowered.
• Ensure that anyone working on a pole or structure takes a position above or well clear of transformers while the transformers are being raised or supported with blocks.
• Ground the secondary side of a transformer before energizing it except when the transformer is part of an ungrounded delta bank.
• Make an individual secondary-voltage test on all transformers before connecting them to secondary mains. On banks of three transformers connected Y-delta, bring in the primary neutral and leave it connected until the secondary connections have been completed to get a true indication on the lamp tests.
• Disconnect secondary-phase leads before opening primary cutouts when taking a paralleled transformer out of service. Do not disconnect secondary neutral or ground connections until you have opened the primary cutouts.
• Do not stand on top of energized transformers unless absolutely necessary and then only with the permission of the foreman and after all possible precautions have been taken. These precautions include placing a rubber blanket protected with a rubbish bag over the transformer cover. Do not wear climbers.
• Treat the grounded case of a connected transformer the same as any grounded conductor. Treat the ungrounded case of a connected transformer the same as any energized conductor because the case may become energized if transformer windings break down.
• Ensure that the breaker cannot be opened or closed automatically before working on an oil circuit breaker and that it is in the open position or the operating mechanism is blocked.
• Ensure that metal-clad switching equipment is deenergized before working on it.
• Ensure that regulators are off the automatic position and set in the neutral position before doing any switching on a regulated feeder.
• Do not break the charging current of a regulator or large substation transformer by opening disconnect switches because a dangerous arc may result. Use oil or air brake switches unless special instructions to do otherwise have been issued by the proper authority.
• Do not operate outdoor disconnecting switches without using the disconnect pole provided for this
purpose.
• Ensure that all contacts are actually open and that safe clearance is obtained on all three phases each time an air brake switch is opened. Do not depend on the position of the operating handle as evidence that the switch is open.
• Do not operate switches or disconnect switches without proper authority and then only if thoroughly
familiar with the equipment.
• Remove potential transformer fuses with wooden tongs. Wear rubber gloves and leather over gloves.
• Do not open or remove disconnect switches when carrying load. First open the oil circuit breaker in series with the switches. Open disconnect switches slowly and reclose immediately if an arc is drawn.
HOTLINE TOOLS SAFETY RULES FOR WORKING BASIC INFORMATION AND TUTORIALS
LINEMAN SAFETY RULES FOR WORKING USING HOTLINE TOOLS
Hotline Tools Safety Rules
Follow these safety rules when working with hot-line tools:
• Do not perform hot-line work when rain or snow is threatening or when heavy dew, fog, or other excessive moisture is present. Exceptions to this rule are when conducting switching operations, fusing, or clearing damaged equipment that presents a hazard to the public or to troops.
• Remain alert. If rain or snow starts to fall or an electrical storm appears while a job is in progress, complete the work as quickly as possible to allow safe, temporary operation of the line until precipitation or lightning ceases. Judgment of safe weather conditions for hot-line work is the foreman's responsibility.
• Perform hot-line work during daylight if possible. In emergency situations, work under artificial light if all conductors and equipment being worked on are made clearly visible.
• Do not wear rubber gloves with hot-line tools because they make detection of brush discharges impossible.
• Avoid holding outer braces or other metal attachments.
• Avoid unnecessary conversation.
• Maintain close cooperation among everyone on the job.
• Treat wooden pole structures the same as steel towers.
• Be careful with distribution primaries. When they are located on the same pole with high-tension lines, cover them with rubber protective equipment before climbing through or working above them.
• Do not change your position on the pole without first looking around and informing others.
• Never use your hands to hold a live line clear of a lineman on a pole. Secure the line with live-line tools and lock it in a clamp.
• Stay below the live wire when moving it until it is thoroughly secured in a safe working position.
Take special precautions on poles having guy lines. Do not use a rope on conductors carrying more than 5,000 volts unless the rope is insulated from the conductor with an insulated tension link stick.
Hotline Tools Safety Rules
Follow these safety rules when working with hot-line tools:
• Do not perform hot-line work when rain or snow is threatening or when heavy dew, fog, or other excessive moisture is present. Exceptions to this rule are when conducting switching operations, fusing, or clearing damaged equipment that presents a hazard to the public or to troops.
• Remain alert. If rain or snow starts to fall or an electrical storm appears while a job is in progress, complete the work as quickly as possible to allow safe, temporary operation of the line until precipitation or lightning ceases. Judgment of safe weather conditions for hot-line work is the foreman's responsibility.
• Perform hot-line work during daylight if possible. In emergency situations, work under artificial light if all conductors and equipment being worked on are made clearly visible.
• Do not wear rubber gloves with hot-line tools because they make detection of brush discharges impossible.
• Avoid holding outer braces or other metal attachments.
• Avoid unnecessary conversation.
• Maintain close cooperation among everyone on the job.
• Treat wooden pole structures the same as steel towers.
• Be careful with distribution primaries. When they are located on the same pole with high-tension lines, cover them with rubber protective equipment before climbing through or working above them.
• Do not change your position on the pole without first looking around and informing others.
• Never use your hands to hold a live line clear of a lineman on a pole. Secure the line with live-line tools and lock it in a clamp.
• Stay below the live wire when moving it until it is thoroughly secured in a safe working position.
Take special precautions on poles having guy lines. Do not use a rope on conductors carrying more than 5,000 volts unless the rope is insulated from the conductor with an insulated tension link stick.
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