Thermal Power Station Chemical HeatHeat Kinetic Kinetic Electrical generator boiler turbine electrical energy.

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Presentation transcript:

Thermal Power Station Chemical HeatHeat Kinetic Kinetic Electrical generator boiler turbine electrical energy

boiler turbines steam generator condenser electrical energy

Nuclear Power Nuclear power stations operate similarly to thermal power stations, but instead of burning fossil fuels to produce heat, a nuclear reaction takes place inside a reactor. ReactorTurbineGenerator Nuclear Heat Heat Kinetic Kinetic Electrical

Uranium is a fuel used in nuclear power stations. It is non-renewable, so it will eventually run-out. However, it has the advantage that a small amount of Uranium can produce huge amounts of energy. 1 kg of Coal30 MJ 1 kg Uranium5,000,000 MJ The major disadvantage of nuclear power is that the waste produced is radioactive. It has to be stored underground in lead and concrete containers for thousands of years.

Chain Reactions Neutron Uranium Nucleus Fission Products + ENERGY Neutrons A neutron is fired at a Uranium nucleus causing it to split-up into fragments. The splitting of the Uranium nucleus is called fission, so we call the fragments fission products. When the Uranium nucleus splits energy is released (which heats water in boiler). More neutrons are also released which can go on to split more Uranium nuclei. Control rods are used in nuclear reactors to absorb some of these new neutrons preventing too much energy being released in a short time.

Yellow Book Power Stations – Page 79 Q12, Q13, Q16, Q18, Q20, Q24

Hydroelectric Power Station turbine + generator low level reservoir water flow high level reservoir

turbine reservoir transmission lines transformer water flow generator

Water is stored at a height behind a dam. The water is allowed to flow down to a lower level. Potential Kinetic The water flows through a turbine spinning the blades which then turns the generator. Kinetic Electrical

Pumped Hydroelectric Power In a pumped hydroelectric power station water can be pumped back-up from the low level reservoir to the higher level. This usually happens throughout the night when the demand for electricity is lower. In the morning when we wake up and there is a demand for electricity, the water is allowed to flow back down again to generate the electricity we need.

x ÷ Potential Energy EPEP mh g Example 1 A dam stores 1.2 x kg of water and is 430 m above the turbine of a hydroelectric scheme. (a)Calculate the potential energy of the water in the dam. (b)The pipe delivers 1,280 kg of water to the turbine every second. Calculate the energy delivered to the power station in one second.

(a) (b) So there are 5.5 x 10 6 J of energy produced in one second. That means 5.5 x 10 6 J per second. But since The power output is 5.5 x 10 6 W, or 5.5 MW.

Question 1 A dam releases 750 kg of water down a pipe every second. The dam is 620 m above the turbine. (a)Calculate the potential energy of this amount of water at the start. (b)Calculate the power output of the power station if it were only 50% efficient. 4,650,000 J = 4.65 MJ 4.65 MJ = 4.65 MW 50% of 4.65 MW = MW

Yellow Book Energy Conversions – Page 83 Q48 and Q51

When an energy transfer takes place some energy is always wasted or degraded through heat. For example, in a lamp Electrical Light + Heat “Energy in” is the electrical energy. “Energy out” is the light energy. “Wasted energy” is the heat energy. If an energy transfer is efficient then only a small amount of energy is wasted. Most of the “energy in” is changed to useful “energy out”. Efficiency

x ÷ E out Eff E in QuantityUnit Energy Out ( E out ) Efficiency ( Eff ) Energy In ( E in ) Joules ( J ) NO UNIT Joules ( J ) Some energy is always wasted so the efficiency is always less than 1. Sometimes the efficiency is written as a percentage, for example 1 can be written as 100% 0.75 can be written as 75% 0.37 can be written as 37% ( decimal is multiplied by 100 to give percentage )

Example 1 A nuclear power station produces 1,500 MJ of electrical energy. This requires 5,000 MJ of heat energy from the reactor. Calculate the efficiency of the power station. ** NO UNIT **

Efficiency can also be calculated from input and output powers. x ÷ P out Eff P in QuantityUnit Power Out ( P out ) Efficiency ( Eff ) Power In ( P in ) Joules ( J ) NO UNIT Joules ( J ) A thermal power station has a percentage efficiency of 33%. It produces 600 MW of electrical power. How much power needs to be produced in the boiler?

Yellow Book Efficiency – Page 80 Q25 (a), (d) and (f) Q28, Q30, Q31, Q33, Q34, Q36