HSC Physics Motors and Generators Week 5 Student name: ………………………………. Class code: …………………………………….. Teacher name: ………………………………. DUX T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au HSC Physics Motors and Generators DUX 1 Week 5 – Theory ο· Discuss the energy losses that occur as energy is fed through transmission lines from the generator to the consumer Transmission lines Power plants are usually built close to primary sources of energy such as coal mines, oil wells, hydroelectric dams etc, which are very far away from cities where most consumers are situated. The generated electricity must be transmitted over long distances, and as a result, significant amounts of energy are lost as heat. Calculating the power-loss The transmission lines that carry the electricity have resistance and over large distances, this leads to fairly significant losses in energy. The equation for power loss is: ππππ π = ππΌ From Ohm’s law, we know: πππππ = πΌπ Combining the two, we get: π·ππππ = π°π πΉ This is the rate of power-loss (we will be using this equation the most). The actual energy lost is πππ€ππ × π‘πππ, so we get: πΈπππ π = ππ‘ = πΌ 2 π π‘ Power loss therefore is proportional to the square of the current. Since power is conserved (P is constant), and π = ππΌ, the higher the voltage, the lower the current. If we minimise the current, we minimise the energy loss (because ππππ π = πΌ 2 π ). © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au HSC Physics Motors and Generators DUX 2 In order to minimise current, electricity is boosted up to high voltages, by using step-up transformers (we will learn this later). Energy losses can also be minimised by using conductors with low resistivity (aluminium is used) but minimising current is by far the most effective way at minimising power loss over long distances. Worked example A power station generates 2.0 MW of power and transmits this power to a city 60 km away through transmission lines with resistance of 3 Ω per km. For the transmission voltages of 30 000 V, calculate the following: (a) (b) (c) (d) the current in the transmission lines the power loss in the transmission lines the power left after the losses the percentage of power lost Solution (a) I = Pgenerated/V = 2000 000 W ÷ 30 000 V = 66β A (b) Ploss = I2R = (66β )2 × (3 × 60) = 800 000 W (c) Pleft = Pgenerated - Ploss = 2000 000 – 800 000 W = 1200 000 W (d) % lost = 800 000 ÷ 2000 000 × 100% = 40 % Transformers To change electrical power from the generated voltage to high voltage, step-up transformers must be used. Step-down transformers are also necessary to reduce the high voltage to domestic voltages. In transforming the power, energy losses can result from eddy currents generating heat due to the resistance of the iron core inside transformers. (This will be discussed in detail at a later dot-point) © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au HSC Physics Motors and Generators DUX ο· 3 Gather secondary information to discuss advantages/disadvantages of AC and DC generators and relate these to their use DC generators Advantages ο· Can deliver a relatively constant voltage under different electrical loads (since phases can be added up) ο· No need for current rectifiers, since DC output is already rectified by split-ring commutator ο· Wires carrying DC do not need electromagnetic radiation shielding, since DC does not emit radiowaves (cheaper wires) ο· DC does not cause heart attacks and is less dangerous than AC. DC can only cause tissue burns, which is less likely to kill Disadvantages ο· Currents are not easily stepped-up or down, making transmission of DC over long distances very costly (huge power losses) ο· Commutator and brushes wear down faster, and there is more friction in commutator (more power loss) o As a result, DC generators have shorter lifespan, less reliable ο· Existence of solid-state rectification methods (e.g. using diodes / transistors etc) means AC generators can produce DC just as well Due to the above disadvantages, DC generators are limited to specialised uses only where the need for DC voltage is significant. These include: ο· ο· ο· Electroplating Aluminium refining Chlorine production AC generators Advantages ο· Voltages can be stepped up, allowing AC to be transmitted over long distances with minimal power losses. ο· AC generators have less moving parts, so they have longer lifespan, cheaper to service and are more reliable o AC generators can be designed to work as a stationary coil and rotating magnet, which is more efficient, reliable, less moving parts overall and easier to maintain ο· AC can be used to power induction motors (we will learn this later), something DC can’t do Disadvantages ο· AC is dangerous as it causes fatal heart attacks and muscle convulsions which prevent breathing, and muscle contractions which prevent movement ο· Transmission wires carring AC needs EM insulation to block radiowaves and other electromagnetic emissions ο· A certain frequency must be maintained and monitored ο· AC produces the “skin effect” whereby current only flows near the surface of the conductor, which increases its effective resistance ο· AC needs rectification before it can be used for most household electronics The advantages, however, outweigh the disadvantages and for this reason, AC generators are widely used for large-scale commercial generation of electricity. The main advantage is that AC voltages can © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au HSC Physics Motors and Generators DUX 4 be stepped-up by transformers with minimal loss, and therefore be transmitted over large distances with minimal power loss, at very high voltages. ο· Assess the effects of the development of AC generators on society and then environment Effects on society are generally positive ο· Positive: Widespread access to cheap electricity The development of AC generators has allowed large amounts of electrical energy to be transmitted over long distances with minimal losses in energy and at a practical cost. This has allowed the consumers affordable and widely available access to electricity. ο· Positive: More free-time in everyday life Appliances such as washing machines, fridges, vacuum cleaners etc rely on such electricity, and their contribution to the consumer’s free time and convenience is an indirect result of the development of AC generators. ο· Positive: Entertainment, communication and education Computers, televisions and radios are also powered by this electricity; their contribution to the consumer’s entertainment, communication and education is another indirect result of this development. Different appliances can be operated using the same source of electricity, which is more convenient and simple for consumers. ο· Positive: Positive health effects, lower pollution The construction of power plants away from industrial, commercial and residential areas, decreases the air pollution experienced by the society and reduces negative health effects. ο· Negative: Critical dependence on electricity The development of AC generators has rendered society to be highly dependent on electricity. A black out or system failure could cause a sudden halt to industrial production and the whole economy. Lives are endangered if power is cut, because hospitals require electricity for many of their systems. Other emergency services such as the fire department will not be able to function if electricity is cut. ο· Negative: Unskilled labour suffers The wide-spread use of electrical appliances, an indirect result of AC generators, has replaced most unskilled labour. This results in unemployment and a lower quality lifestyle for a portion of society. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au HSC Physics Motors and Generators DUX 5 Effects on the Environment are generally negative ο· Negative: Construction of mines, power plants hurts the environment Due to the increased availability and affordability of AC electricity, the demand has also risen dramatically. This leads to the construction of more AC generators and power plants, which have a significantly detrimental effect on the environment. For example, generators powered by water turbines require the construction of large dams. Large areas of land must be cleared for dam construction, which interfere with the growth of plants and the movement of animals, destroying natural habitats and disrupting breeding cycles. Increased demand for fossil fuels requires more mines to be built, which requires clearing of land, blasting mountains etc. ο· Negative: Burning of more fossil fuels – acid rain, global warming, depletion of resources The burning of fossil fuels to generate power is another negative effect. This produces large amounts of air pollution in the form of carbon dioxide (a greenhouse gas that contributes to global warming), carbon monoxide (a toxic gas) and other gases that contribute to acid rain. ο· Negative: Nuclear power plants produce radioactive wastes The development of nuclear power plants to produce steam has led to radioactive waste products that need to be stored safely for a long time and can have detrimental effects on the environment and the society. ο· Negative: Thermal pollution Steam turbines encourage thermal pollution in which hot waste water is returned to natural waterways, warming up the water. This encourages algae growth, kills sensitive aquatic life (basically nearly all fish) and disrupts breeding cycles of all organisms. ο· Positive: Society has become more environmentally conscious The availability of essentially limitless power has allowed society to become more environmentally conscious; investing revenue into reduction, prevention and reversal of damage done to the environment. The cost of energy becomes less of a concern and environmental matters take priority. Assessment Overall, the development of AC generators has had very positive effects on society but significantly detrimental effects on the environment. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au DUX ο· HSC Physics Motors and Generators 6 Plan, choose equipment or resources for, and perform a first-hand investigation to demonstrate the production of an alternating current This dot-point requires students to be able to recall an experiment they did in school which models the generation of AC. The most simple way to achieve this is by using a solenoid (another word for a coil) and permanent magnet, using a milliammeter to measure the current and complete the circuit. Method A solenoid was connected to a milliammeter (necessary to measure the tiny currents produced). A bar magnet was repeatedly moved into and out of the solenoid. Observations of the milliammeter were made and recorded. Results and analysis The pointer in the milliammeter oscillated between positive and negative values. The movement of the pointer indicated the production of a potential difference and alternating current in the circuit. An alternating current was produced because the movement of the magnet into and out of the solenoid created a change in magnetic flux. This induced a potential difference in the solenoid. The current produced was alternating because of the movement of the magnet in alternating directions. Alternative experiment There is perhaps an easier (though less hands-on) method of generating an AC current. The coil in an AC motor can be physically rotated to form an AC generator. The generated alternating current can be observed if the motor is connected to an oscilloscope. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au DUX ο· HSC Physics Motors and Generators 7 Analyse secondary information on competition between Westinghouse and Edison to supply electricity to cities War of Currents Edison and Westinghouse competed against each other for a contract to supply electricity to American cities. This historical event occurred during the late 1880s and was called the “War of Currents”. Thomas Edison Edison developed a business to set up a direct current system of distributing electricity and heavily promoted DC. He planned to build numerous power stations along a long canal, each supplying electricity to individual factories. The advantages of his system were that DC was well established in society (appliances worked on DC), DC was effective over short distances and there was no energy loss through EMR. The disadvantages of Edison’s system included the high expense of constructing many power stations within cities and the increased air pollution. George Westinghouse Westinghouse developed an alternating current system of distributing electricity across large distances to the city via transmission lines. The advantages of his system included the ability for the voltage to be stepped up and down to minimise energy loss, the larger distance between power plants and cities leading to less pollution, and a general increase in accessibility and affordability of electricity. The main disadvantage of Westinghouse’s AC system was that AC power is more likely to kill or injure in the event of an electrical accident. In fact, Edison attempted to make AC unpopular in society through public electrocutions of animals and the use of the electric chair for capital punishment. Westinghouse won the bid to distribute electricity to cities using AC generators, transformers and high voltage transmission lines. The rise of AC distribution began when Westinghouse harnessed the water power from Niagara Falls to produce AC electricity for companies in New York City. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au DUX ο· HSC Physics Motors and Generators 8 Gather and analyse information to identify how transmission lines are: insulated from supporting structures, and protected from lightning strikes Insulation from supporting structures Why insulate: If the current in the transmission cables came in contact with the support pylon, the current will be earthed, and the energy will be totally dissipated. Therefore correct insulation from supporting pylon is important. Ceramic plates: Insulation is provided by ceramic plates (commonly either glass or porcelain) successively stacked upon each other. These materials are chosen because they are strong, have extremely high resistance and do not degrade due to environmental exposure. Without the plates, as it rains, water droplets can form a conducting bridge as it trickles down from the cable onto the pylon steel, carrying dirt and other potentially conductive materials with it. Plates are stacked on top of each other, firstly preventing rainwater from forming a connecting trickle (water is forced to drop as individual droplets). Secondly, these plates act as an umbrella for plates beneath it, preventing buildup of dirt and other potentially conductive materials under the plates beneath. Dust and grime only collects upon the top plate, and the outer rims of the others. Hence, no dust effectively reaches the spaces within the plates to form a current bridge. Effectively, these plates increase the distance the current must jump (arc) in order to reach the pylon. The greater the voltage being carried, the more plates used to separate the wires from the supporting structures (to increase the distance the current must travel to reach the pylon). © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au DUX HSC Physics Motors and Generators 9 Protection from lightning strikes High voltage transmission lines are highly susceptible to lightning strikes as they are usually the tallest conductors in the vicinity. Lightning can cause dangerous current spikes if the lightning was able to contribute to the grid. These spikes can damage the supply system and sensitive electronics such as computers and televisions (ever had a modem die after a thunderstorm?). The damage would inconvenience our electrically dependent society and be highly expensive to repair. To protect transmission lines from lightning strikes, a pair of wires (earthed conductors) are connected to the supporting towers and suspended above the transmission lines. These wires, being the highest in altitude, are more likely to be struck by lightning than the transmission lines. When this happens, the current is harmlessly earthed through the metallic support towers. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au HSC Physics Motors and Generators DUX 10 Week 5 – Homework ο· 1. Discuss the energy losses that occur as energy is fed through transmission lines from the generator to the consumer Derive an equation to calculate the energy loss from transmission lines. Describe the implications of your equation for the prevention of energy loss. [3 marks] ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. 2. A power station is producing 80 kW of power and transmits this power to a city 40 km away through transmission lines with a total resistance of 0.6 Ω. If the power is transmitted at 240 V, calculate the current and voltage drop across the transmission lines. Calculate the voltage available to consumers. Calculate the power left after losses. [2 marks] ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au DUX ο· HSC Physics Motors and Generators 11 Gather secondary information to discuss advantages/disadvantages of AC and DC generators and relate these to their use 1. Construct a table to briefly summarise the advantages and disadvantages of AC and DC generators. [4 marks] 2. Explain the main reason why AC generators are used instead of DC generators for largescale commercial generation of electricity. [2 marks] ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. 3. Assess the compromise between safety and cost-efficiency of using AC for household electricity. [2 marks] ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au DUX ο· HSC Physics Motors and Generators 12 Assess the effects of the development of AC generators on society and then environment 1. Construct a table to briefly summarise the positive and negative effects of AC generators on society and the environment. [4 marks] 2. [2007 HSC] Assess the effects of the development of AC generators on today’s society and the environment. [4 marks] ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au DUX ο· 1. ο· 1. HSC Physics Motors and Generators 13 Plan, choose equipment or resources for, and perform a first-hand investigation to demonstrate the production of an alternating current Draw the output of an oscilloscope connected to an AC generator. [2 marks] Analyse secondary information on competition between Westinghouse and Edison to supply electricity to cities Identify the main limitation in Edison’s system. Predict the effects of this limitation on the distribution of electricity to cities. [3 marks] ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au DUX 2. HSC Physics Motors and Generators 14 [2004 HSC] In the late nineteenth century Westinghouse and Edison were in competition to supply electricity to cities. This competition led to Edison holding public demonstrations to promote his system of DC generation over Westinghouse’s system of AC generation. Propose arguments that Westinghouse could have used to convince authorities of the advantages of his AC system of generation and distribution of electrical energy over Edison’s DC supply. [6 marks] ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au HSC Physics Motors and Generators DUX ο· 1. 15 Gather and analyse information to identify how transmission lines are: insulated from supporting structures, and protected from lightning strikes [2004 HSC] The photograph below shows the details of the top section of a transmission line support tower. Describe the role of each of the parts labelled A and B in the photograph. [2 marks] ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. ………………………………………………………………………………………………………………………………………………………. End of homework © Dux College 2015 | Do not distribute Need help? Visit the student forums and ask our tutors. www.duxcollege.com.au/forums T: (02) 8007 6824 E: info@duxcollege.com.au W: www.duxcollege.com.au