Energy and Society. Professor Ani Aprahamian
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- Luke Townsend
- 5 years ago
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Transcription
1 Energy and Society Professor Ani Aprahamian
2 Renewal Energy Resources almost inexhaustible Now we will start talking about Solar/Wind/Hydropower
3 Earth is tilted at 23 degrees above the point on earth where the sun is at its zenith on noon
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6 Breakdown of the incoming Solar energy
7 Hydropower, hydraulic power or water power is power that is derived from the force or energy of moving water, which may be harnessed for useful purposes. Prior to the widespread availability of commercial electric power, hydropower was used for irrigation, and operation of various machines, such as watermills, textile machines, sawmills, dock drances, and domestic lifts.
8 Hydro-electricity Today the largest use of hydropower is for the creation of hydroelectricity, which allows low cost energy to be used at long distances from the water source. Hydroelectricity is electricity generated by hydropower, i.e., the production of power through use of the gravitational force of falling or flowing water. It is the most widely used form of renewable energy. Once a hydroelectric complex is constructed, the project produces no direct waste, and has a considerably different output level of the greenhouse gas carbon dioxide (CO2) than fossil fuel powered energy plants. Worldwide, hydroelectricity supplied an estimated 715,000 MWe in This was approximately 19% of the world's electricity (up from 16% in 2003), and accounted for over 63% of electricity from renewable sources.
9 The world's largest is the Three Gorges Dam on the third longest river in the world, the Yangtzi River. Apart from a few countries with an abundance of hydro power, this energy source is normally applied to peak load demand, because it is readily stopped and started. It also provides a high-capacity, low-cost means of energy storage, known as pumped storage. drainage area of 1 million km 2, with an average annual runoff of 451 billion m 3
10 Three Gorges Dam will provide one ninth of China's total power output(the total electric generating capacity of the dam will reach 22,500 MW.)The dam controls flooding, enhances navigation, and provides a vast amount of clean electricity.
11 Hoover Dam on the Colorado River
12 Hoover Dam on the Colorado River Length 1244 ft (379 m) Height ft (221 m) Base width 660 feet (201m) Crest width 45 ft (14 m) Volume Type of spillway Discharge capacity of spillway 3,250,000 cu yd (2,480,000 m 3 ) 2 x controlled drum-gate 400,000 cu ft/s (11,000 m 3 /s) Construction began 1931 Opening date 1936 Construction cost $49 million
13 Courtesy of BBC: Three Gorges Dam Yangtze river or Chang Jiang
14 China's controversial Three Gorges Dam project hits a significant milestone on Saturday, when it is expected to reach its final height of 185m (607 feet). But it will not be fully operational until 2009.
15 The project was begun in 1993 at an official cost of 200 billion yuan ($25bn), though unofficial estimates Are far higher. When the dam's reservoir reaches its final height of 175m, the five-chamber shiplock will raise boats by as much as 113m.
16 The primary aims of the dam are to alleviate flooding on the Yangtze River and generate power. Fourteen turbine generator units are already in operation.
17 At least 1 million people were relocated to make way for the project.
18 Those made homeless by the dam are being moved to new townships. Some say they miss their old homes; others are pleased to have modern facilities.
19 Flood Control Energy Generation Navigation Tourism
20 A water turbine is a rotary engine that takes energy from moving water.
21 USGS Home Contact USGS Search USGS U.S. Geological Survey
22 WE are taking energy stored.potential energy Converting to kinetic energy Example Amount of power you can get out Total flow Height. Potential energy can be thought of as energy stored within a physical system. It is called potential energy because it has the potential to be converted into other forms of energy, particularly kinetic energy, and to do work in the process. The standard (SI) unit of measure for potential energy is the joule, the same as for work or energy in general.
23 Calculate the flow rate of water (l/s or kg/s) required to provide 100 kw Of Electric power if the water falls for a vertical distance of 100m Assume 75% efficiency. Potential energy: Gravitational E = mgh Joules Power= Energy/time.Joules/s=Watts Mgh/s= (1kg/s)(9.8m/s 2 )(100m)=980 kg.m 2 /s Watts from 1kg/s 100 kilowatts=100,000 Watts 980 Watts*0.75= 735 Watts produced by 1 kg/s 100,000 Watts/735 Watts= kg/s = l/s Density of water 1000kg/m 3 1 joule= 1kg.m 2 /s 2 ; One liter is composed of 1,000 cubic centimeters (cc); 1kg
24 A river has an annual flow rate of 43,000 km 3 per year. Suppose you could harness 10% of that flow into hydro-electric dams that have water dropping through a distance of 300m. Potential Energy= mgh = 1.365x10 9 kg/s (9.8m/s 2 ) (300m) = x Watts Taking into account the efficiencies (0.9)(0.1) = 0.36 x Watts Assume 90% efficiency in converting the water s energy to electricity What would be the total output of electrical power? 1000kg/m 3 density of water 3.15x10 7 s in one year 10 9 m 3 in km 3 43,000km 3 x 10 9 m 3 /km 3 x 1000kg/m 3 = 43 x10 15 kg of water/yr 43x10 15 kg of water/yr x 1 yr/3.15x10 7 s= x 10 9 kg/s
25 Wind Power.on land, off-shore, Wind Energy system Wind turns a rotor made of blades/vanes Rotor connected to a shaft.electric generator Power that can be extracted from the wind is proportional to the cube of the wind s velocity and the area swept out by the blades
26 80-Meter Wind Resource Maps
27 Can t store the energy.
28 Power that can be extracted from the wind is proportional to the cube of he wind s velocity and the area swept out by the blades. Why Cube? Velocity of wind v Motion of blades.1/2 mv 2 Kinetic Energy = ½ mv 2 Mass= mass of air that hits the wind-generator blades in a unit of time Power output is also related to the area swept out by the blades; Area= diameter 2 Maximum achievable efficiency by wind turbines 59% Maximum power output= 2.83 x 10-4 d 2 v 3 kwatts ; 2.36x10-6 d 2 v 3 D is in meters; v=m/s ; d is in feet; v= miles/hr
29 What is the maximum achievable power output of a wind turbine of blade radius 2m in a 25 mph wind? 2.36x10-6 d 2 v 3 Diameter = 2 x radius = 4m convert to feet.. 4m x 3.28 ft/m= ft Power = (13.08ft) 2 (2.36x10-6 ) (25 mph) 3 = 6.3 kwatts