In the island of El Hierro, there is a hidroelectric power plant called Gorona del Viento. Concretly, it is a pumped-storage power plant. The plant uses turbines, pumps, and wind turbines to produce clean energy. Even, there are periods of the day that the entire island use only clean energy, without using fosil fuels.
Energy Technlogy
miércoles, 20 de enero de 2016
GRAN CANARIA'S POWER PLANT
In Canary Islands we have mainly thermal power plants.
In Gran Canaria, there are two thermal power plant. One of them is in Jinamar, and the other is in San Bartolomé de Tirajana. Both of them, burn fossil fuels, that evaporate water, and this water move a generator. generators produce electricity, that is send to the cities. In the picture, you can see the thermal power plant of Jinamar.
lunes, 18 de enero de 2016
BENEFITS OF RENEWABLE ENERGY
Renewable energy — wind, solar, geothermal, hydroelectric, and biomass — provides substantial benefits for our climate, our health, and our economy:
Each source of renewable energy has unique benefits and costs.
Human activity is overloading our atmosphere with carbon dioxide and other global warming emissions, which trap heat, steadily drive up the planet’s temperature, and create significant and harmful impacts on our health, our environment, and our climate.
Electricity production accounts for more than one-third of U.S. global warming emissions, with the majority generated by coal-fired power plants, which produce approximately 25 percent of total U.S. global warming emissions; natural gas-fired power plants produce 6 percent of total emissions. In contrast, most renewable energy sources produce little to no global warming emissions.
According to data aggregated by the International Panel on Climate Change, life-cycle global warming emissions associated with renewable energy—including manufacturing, installation, operation and maintenance, and dismantling and decommissioning—are minimal.
Compared with natural gas, which emits between 0.6 and 2 pounds of carbon dioxide equivalent per kilowatt-hour (CO2E/kWh), and coal, which emits between 1.4 and 3.6 pounds of CO2E/kWh, wind emits only 0.02 to 0.04 pounds of CO2E/kWh, solar 0.07 to 0.2,geothermal 0.1 to 0.2, and hydroelectric between 0.1 and 0.5. Renewable electricity generation from biomass can have a wide range of global warming emissions depending on the resource and how it is harvested. Sustainably sourced biomass has a low emissions footprint, while unsustainable sources of biomass can generate significant global warming emissions.
ENVIROMENT IMPACT
All energy sources have some impact on our environment. Fossil fuels — coal, oil, and natural gas — do substantially more harm than renewable energy sources by most measures, including air and water pollution, damage to public health, wildlife and habitat loss, water use, land use, and global warming emissions.
Wind power
Harnessing power from the wind is one of the cleanest and most sustainable ways to generate electricity as it produces no toxic pollution or global warming emissions. Wind is also abundant, inexhaustible, and affordable, which makes it a viable and large-scale alternative to fossil fuels.
Despite its vast potential, there are a variety of environmental impacts associated with wind power generation that should be recognized and mitigated. For example, time life of wind turbine blades is between 20 and 30 years. After this, blades turn on useless waste, and enviromentals worker must face this problem.
Solar power
Like wind power, the sun provides a tremendous resource for generating clean and sustainable electricity.
The environmental impacts associated with solar power can include land use and habitat loss, water use, and the use of hazardous materials in manufacturing, though the types of impacts vary greatly depending on the scale of the system and the technology used — photovoltaic (PV) solar cells or concentrating solar thermal plants (CSP).
Geothermal energy
The most widely developed type of geothermal power plant (known as hydrothermal plants) are located near geologic “hot spots” where hot molten rock is close to the earth’s crust and produces hot water.
In other regions enhanced geothermal systems (or hot dry rock geothermal), which involve drilling into the earth’s surface to reach deeper geothermal resources, can allow broader access to geothermal energy.
Geothermal plants also differ in terms of the technology they use to convert the resource to electricity (direct steam, flash, or binary) and the type of cooling technology they use (water-cooled and air-cooled). Environmental impacts differ depending on the conversion and cooling technology used.
Biomass for Electricity
Biomass power plants share some similarities with fossil fuel power plants: both involve the combustion of a feedstock to generate electricity. Thus, biomass plants raise similar, but not identical, concerns about air emissions and water use as fossil fuel plants. However, the feedstock of biomass plants can be sustainable produced, while fossil fuels are non-renewable.Sources of biomass resources for producing electricity are diverse; including energy crops (like switchgrass), agricultural waste, manure, forest products and waste, and urban waste. Both the type of feedstock and the manner in which it is developed and harvested significantly affect land use and life-cycle global warming emissions impacts of producing power from biomass.
Hydroelectric power
Hydroelectric power includes both massive hydroelectric dams and small run-of-the-river plants. Large-scale hydroelectric dams continue to be built in many parts of the world (including China and Brazil), but it is unlikely that new facilities will be added to the existing U.S. fleet in the future.Instead, the future of hydroelectric power in the United States will likely involve increased capacity at current dams and new run-of-the-river projects. There are environmental impacts at both types of plants.
ELECTRICAL POWER PLANTS
What is Power Plant?
A power plant or a power generating station, is basically an industrial location that is utilized for the generation and distribution of electric power in mass scale, usually in the order of several Watts. These are generally located at the sub-urban regions or several kilometers away from the cities or the load centers, because of its requisites like huge land and water demand, along with several operating constraints like the waste disposal, etc.
Conventional sources :
Energy that has been used from ancient times is known as conventional energy. Coal, natural gas, oil, and firewood are examples of conventional energy sources. In the pictures, you can see an oil lamp and an oil station.
Non-conventional (or unusual) sources of energy include:
These energy sources are not discovered recently, as photovoltaic panels. Other, as wind power, are used from ancient.• Solar power
• Hydro-electric power (dams in rivers)
• Wind power
• Tidal power
• Ocean wave power
• Geothermal power (heat from deep under the ground)
• Ocean thermal power (the difference in heat between shallow and deep water)
• Biomass (burning of vegetation to stop it producing methane)
• Biofuel (producing ethanol (petroleum) from plants
miércoles, 13 de enero de 2016
ELECTRICAL ENERGY - STORAGE
Energy is hard for storage. Batteries, as you have on your smartphone, have a limited capacity of storage. How many times a day you have to charge your phone?
Scientist are investigating about better batteries, that live long and storage more capacity.
Scientist are investigating about better batteries, that live long and storage more capacity.
ELECTRICAL ENERGY - GENERATION
In the photograph, you can see a generator of a power plant. These generators are bigger than generators you can find in town buildings.
In power plants, there are boilers, in which coal, fuel and natural gas are burned. This energy warm and evaporate water, and move turbines. Turbines produce electricity, and this electricity is send out the power plant.
ELECTRICAL ENERGY - TRANSPORTATION
As you can see in the
photograph, the electrical system has a lot of elements. The first of them is
the electric generation. The generators use the wind power, fuel, coal and
natural gas, among others, to produce electricity in the alternator.
In a conductor, if
current increase, the conductor get warm, and lose power. This is known as
Joule heating. For this reason, in electrical substations, current level
decrease, and voltage level increase, keeping the same level of power.
So, long lines you see
at periphery are called high voltage
lines. These lines arrive to other electrical substations, and they adapts
current and voltage level for domestic using.
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