SAFETY around ELECTRICITY & NATURAL GAS How does electricity and natural gas get to you? When can electricity be dangerous? Learn how to recognize a natural gas leak. Keep your home safe.
Play safe. Beware of dangers. We sometimes forget that electricity can be dangerous. Carelessness, neglect or lack of information can cause electrical accidents. The results can be fire, serious injury, severe burns or even death if electrical current travels through the body. Did you know the human body is a good conductor of electricity? As a result, a person s body can become a path for electric current to reach the ground. By learning about the dangers, and following basic safety tips, you can keep yourself and your family safe. The activities in this resource will help develop an awareness of both electrical and natural gas safety issues. Stay safe and follow these basic tips. Stay away from fallen power lines. Avoid contact with overhead power lines. Obey warning signs. They are there to keep you safe. Unplug electronic devices during electrical storms. Use a power bar if you need to plug multiple items into an outlet. Pull the plug, when disconnecting an electrical device like a phone charger. The third prong of a plug exists for safety reasons; do not break it off. Never put fingers or other objects into an outlet. Keep cords away from heat and water. Never remove a plug with wet hands. Never use anything with a plug or cord around water. Replace damaged cords or plugs; stop using them immediately. Unplug the toaster before removing stuck toast. Never use water to put out an electrical fire. If you smell natural gas leave the area immediately and don t touch any electrical switches as it could cause a spark. Learn more about safety at hydro.mb.ca
We use electricity every day without thinking much about it. 1 Electricity is part of our daily activities. Write down 10 different ways you use electricity. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. What is electricity? 2 Finish the sentences using the words below to learn the basics of electricity. Electron Atom electricity electrons atom energy negative matter Electricity is a form of, resulting from the flow of millions of invisible particles called. An electron has a charge and it circles the atom (the extremely tiny units of that make up everything in our world). When electrons move from to atom through a wire, is produced. Page 1
Energy from water hydropower About 97% of Manitoba s electricity is made from renewable hydropower. Hydroelectric generating stations convert energy from flowing water into electricity. Water that is stored behind a dam is released and turns large turbines. The spinning of the turbines activates a magnetic generator, moving the electrons from atom to atom, producing large amounts of electricity to be sent to towns and cities. Although water is the main source of power in the province, other sources of energy are also used to create electricity throughout Manitoba and Canada. Renewable energy Energy using environmental materials that can be naturally re-stocked and used again in the future (Examples: hydropower, wind, solar, and geothermal energy) Non-renewable energy Energy using environmental materials that will eventually be used up completely (Examples: fossil fuels coal, oil, natural gas) How does electricity travel? Electricity travels along a path called a circuit. It is sent from a hydroelectric generating station through wires to utility poles and underground lines. From there, it travels to the service panel of your home where it flows inside small wires to wall switches and outlets. When you switch on an electrical device you complete the circuit. Electricity flows from the outlet and through the cord to power the device. When the switch is off, the circuit is not complete. Electricity is always ready to use when you need it. Page 2
How does electricity get to you? Most of the electricity in Manitoba is made by the power of falling water flowing through generating stations. This clean,renewable energy is called hydropower. The electric current is sent through transformers that increase the voltage to push the power long distances. Electricity travels along high-voltage transmission lines. It reaches a substation where the voltage is lowered to be sent on smaller power lines. A meter measures how much power is used. Electricity goes to the service panel where breakers or fuses protect circuits from being overloaded. It travels through distribution lines where smaller transformers lower the voltage again to use in homes. Electricity travels through wires inside the walls to outlets and switches. Electricity travels fast. Electricity moves through wires and power lines very fast. It can travel all the way from Halifax to Vancouver and back in less than half a second! Page 3
How does natural gas get to you? Natural gas is a form of energy that is pumped from wells drilled deep into the ground. It is delivered to homes and businesses through underground pipelines. Nearly 100 % of the natural gas that is distributed throughout Manitoba is brought in from Alberta by a pipeline. Natural gas can be used to heat our homes by powering furnaces, fireplaces and water heaters, and can power other appliances like ranges, barbecues and dryers. Dangers below the surface Natural gas pipelines and some electrical lines run underground. Hitting an underground pipeline or power line can cause serious injury or death. Before digging any holes deeper than 15cm, visit ClickBeforeYouDigMB.com and request a line locate. Manitoba Hydro will send someone to mark where underground pipes and power lines are, preventing you from hitting a line and being harmed. Prevent fires at home Natural gas uses a flame and can make appliances heat up. Always keep items like paper, curtains, towels, clothing, toys and flammable liquids (cleaning chemicals, paint thinner etc.) away from fuel burning appliances. These objects can overheat and catch fire if they are nearby. Page 4
Be alert. Stay safe. Substations A substation is one of the places electricity flows through on its way to powering your home. Here, high voltage electricity from generating stations and utility towers is converted to a lower voltage. This way, it can be sent through many smaller power lines and wires. The high voltage electricity in a substation is very dangerous. Fences, locks and signs like Danger and Keep Out are put in place for your safety. Never play near substations or padmount transformers and never try to climb a substation fence to retrieve a ball or other item. Only trained Manitoba Hydro workers with special insulated safety gear can enter a substation. DANGER KEEP OUT 3 Safety secret agent Unscramble the words below to decode a secret safety message. Fill in the spaces to see what it says. S L W A Y A O Y B E N I W G A R N I S S G N WHAT THE SAY! Dams & generating stations Never play or swim near a dam or hydroelectric generating station. Water around generating stations is turbulent, and can be unsafe for fishing and boating. The sound of a horn or siren at a generating station means the spillway is going to open. Water levels can change very quickly. Stay away from the edge of the water near generating stations rocks are slippery here and you could fall and be pulled into the current. Page 5
Electricity flows through conductors but not through insulators Electricity can flow through some items more easily than others. Conductors are materials that allow electricity to flow through them easily. Water and metal are both good conductors of electricity. Seventy percent of the human body is made of water, making people conductors of electricity too. Insulators are materials that DO NOT allow electricity to flow through them. Rubber tires, glass and plastic are all examples of good insulators. Be aware! Some insulators can turn into conductors of electricity if they get wet. 4 Circle all of the items below that are conductors. Foil Balloon Copper wire PVC Plastic Tube People Window Tree Branch Lemon Juice Industrial Rubber Lineman Gloves Did you know? The sap found in trees is made up primarily of water, making it an excellent conductor of electricity. Stay safe! Never climb trees that are near or touching power lines. Page 6
Water & electricity - a dangerous mix Water and electricity can be a dangerous combination. Water is a conductor, allowing currents of electricity to move through it very easily. Keep electrical cords away from water and avoid plugging in electrical devices like phone chargers, radios or hairdryers near sinks, bathtubs, pools, or other wet areas. Don t use electricity near water! If an electrical device gets wet while it is plugged in, electricity powering that device can flow through the water and flow through you as well! This can be fatal. Remember: when switching on lights or plugging things into an outlet, always make sure your hands are dry to avoid being shocked or electrocuted. 5 Option Think about the hazards. Which image is more dangerous and why? Why? A B RESET TEST What is a GFCI? A ground fault circuit interrupter (GFCI) is a special kind of outlet which can prevent you from being electrocuted. The GFCI cuts off the flow of power automatically if it detects that electricity is escaping from a circuit and trying to ground itself. GFCIs are typically found in areas where there is a higher risk of electricity and water coming in contact. Safety tip Never try to put out an electrical fire with water! Call 911 for help. Fire extinguishers can be used to put out electrical fires. Page 7
When can electricity be dangerous? Electricity is always looking for the easiest way to get to the ground. Since 70% of the human body is made of water, your body can conduct electricity. If you touch an electrical circuit and the ground at the same time, you become the easiest path to ground for electricity to travel through. Don t let that happen! Electricity can shock, burn or kill you. 6 Find the path of electricity from the energized line to the ground. What happens to the human body when electricity passes through it? Electricity leaves burns where it enters and exits the body. Internal tissues are damaged as well. Muscles tighten, making it almost impossible to let go of an energized item. Lungs constrict, making it hard to breath. The heart cannot pump blood because blood vessels tighten. Accidents happen quickly. The effects of electricity are immediate and a person is not able to pull themselves away fast enough. Anyone who touches a person being electrocuted can become part of the circuit. That s why you should never touch anyone who is being shocked. Page 8
Don t hang around if lines are down Storms can knock power lines to the ground, onto a tree or a fence. If you see a downed power line, stay far away from it and tell others to stay clear of it as well. Never try to touch a fallen power line or try to move it with a pole or tree branch electricity may still be flowing through the line and could electrocute you. Instead, get an adult to call Manitoba Hydro. They will send someone out to safely de-energize the line and repair it. 7 Connect the dots to reveal the image. If an energized line falls on your car Stay in the vehicle until help arrives. In an emergency (like a fire) where you must exit the vehicle, follow these safety steps: Jump clear without touching the ground and car at the same time. Land with your feet together and arms at your sides. Shuffle away, keeping both feet on the ground, until you are a safe distance from the car. If you exit one foot at a time while touching the car, you could become a path to ground and be electrocuted. 6 3 4 7 5 2 9 62 64 60 61 63 66 65 58 59 57 41 40 36 43 37 55 56 54 44 35 53 42 52 38 28 45 50 51 49 48 46 47 39 1 27 24 21 20 17 112 111 110 108 109 68 67 31 33 69 70 71 72 34 25 32 26 73 29 93 92 90 95 96 94 91 97 98 99 100 23 101 22 102 103 104 106 107 105 30 74 75 76 83 85 87 88 89 77 81 84 86 79 82 78 80 8 10 11 12 13 15 14 16 19 18 Page 9
Stay clear of overhead power lines Colour in each of the safety scenes below. When flying kites, drones, model airplanes or foil balloons, always be aware of overhead power lines. If an item comes in contact with a line and you are touching it, electricity can travel down and electrocute you. Never climb trees or other structures close to overhead power lines. If you see a low hanging power line that is touching a fence, tree or building, stay away and alert others of the danger. Have an adult call 911. Tall farm equipment and large truck boxes must be lowered before driving under power lines. If you re riding on an ATV or snowmobile, always look out for guy wires. Although there is no electricity running through these wires, they are very tight and sharp, and could cut or injure you if you drive into one. Remember to keep ladders away from power lines. Page 10
Natural gas leaks stink! Learn how to recognize a natural gas leak Did you know that natural gas smells like rotten eggs? This is because a chemical, called Mercaptan, is added to natural gas. Although this smell is unpleasant, it is used to help us detect if there is a natural gas leak. 8 Use the word bank to complete the safety story. leave spark smell device inside natural gas candles tell safe leak explosion can start a fire or cause an if even a tiny ignites it. Never use or any electrical that could create a spark if you think there is a natural gas in your home. If you natural gas in a building, right away and an adult to call 911 or Manitoba Hydro. Only go back once a trained worker tells you it is. Test Carbon Monoxide Alarm Things to know about CO Carbon monoxide (CO) is an odourless, colourless gas, that you cannot see, smell or taste. Dangerous levels of CO can be created by a faulty appliance, a clogged chimney, or a buildup of engine exhaust. CO can make you feel dizzy and nauseous and can be fatal if you breath in too much of it. Do you have a CO detector installed in your home to warn you of this danger? If you hear the detector alarm go off, alert your family members and leave immediately. Call 911 to report the emergency. Page 11
Wired for safety Extension cords and power bars should never run under rugs or furniture legs. This could damage the cord and cause a fire from overheating. Unplug the toaster before trying to remove bread that is stuck. Never stick a fork in a toaster when it is still plugged into the outlet. Don t overload outlets. Plugging in multiple appliances into the same outlet can bring in much more electricity than the outlet was designed to handle. This can cause it to overheat and start a fire. Only plugs belong in outlets. Keep fingers and small objects out of the spaces of empty electrical outlets. Never touch or use a damaged electrical cord. Cords with exposed wires are a fire hazard and can put you at risk of being shocked or electrocuted. Home safe home Use the check list below to do a home safety inspection with your family. Radios, chargers or other appliances are far from sinks, bathtubs or pools Yes No Fuses and circuit breakers are the correct size for the circuit Damaged electrical cords have been replaced Carbon Monoxide detector has been installed and tested Underground lines have been marked before any digging GFCI outlets are installed in bathrooms, kitchen, garage or near pools Flammable items are far from natural gas furnaces and electrical heaters Extension cords are carefully chosen and only used for their intended use Page 12
Answer key Activity 1 A Examples: Cell phone charger Toaster Video games Lights Microwave Refrigerator Hot water for shower Computer Television Furnace Activity 2 energy electrons negative matter atom electricity Activity 3 Always obey what the warning signs say! Activity 4 Foil Balloon Copper wire People Tree branch Lemon juice Activity 5 Option A Electricity and water are a dangerous combination. You could be electrocuted if your phone falls into water and you retrieve it while it is plugged into an electrical outlet. Never use anything with a plug or cord around water. Activity 6 Image A, to the left. Activity 7 Image B, below, of fallen tree. Activity 8 natural gas explosion spark candles device leak smell leave tell inside safe B 6 3 4 7 5 2 9 62 60 61 63 58 59 57 41 40 43 55 56 54 44 53 42 52 45 50 51 49 48 46 47 39 1 17 20 27 21 24 70 71 72 74 64 66 68 69 73 75 76 65 67 77 78 34 32 30 36 29 79 37 33 81 80 31 83 82 35 84 26 38 28 25 85 86 87 112 111 110 108 109 107 93 92 90 88 95 96 94 91 89 97 98 99 100 23 22 106 101 102 103 104 105 8 10 11 12 13 15 14 16 19 18 Page 13
3 DANGER KEEP OUT 9 CARBON MONOXIDE ALARM 222 STAY SAFE! 04/2018 Available in accessible formats upon request.