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ENERGY SOURCES
| Institution | TVET |
| Course | Certificate in ICT |
| Year | 1st Year |
| Semester | Unknown |
| Posted By | stephen oyake rabilo |
| File Type | |
| Pages | 11 Pages |
| File Size | 165.13 KB |
| Views | 7026 |
| Downloads | 0 |
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Description
ENERGY SOURCES
All of these different sources of energy are used to produce electricity.
Types of Sources of Energy
These can be broken down into renewable and non-renewable energy sources.
Renewable Energy Source
Renewable energy sources are natural resources that can be harnessed to generate energy in an
environmentally sustainable way. These sources are replenished by natural processes and are
considered a clean and green alternative to fossil fuels. Some of the most common renewable energy
sources include:
The major types or sources of renewable energy are:
i) Solar Energy: Solar energy is harnessed from the sun's radiation using photovoltaic (PV) cells to
generate electricity or solar thermal systems to produce heat for various applications. Solar panels
are commonly used to capture sunlight and convert it into electricity for residential, commercial,
and industrial use.
ii) Wind Energy: Wind turbines capture the kinetic energy of moving air and convert it into
electricity. Wind farms consist of multiple turbines and are often located in areas with consistent
wind patterns. Wind energy is a significant source of electricity generation in many regions.
iii) Hydroelectric Power: Hydroelectric power is generated by capturing the energy of flowing or
falling water, typically in dams and reservoirs. The movement of water turns turbines, which
produce electricity. Hydropower is a well-established and widely used renewable energy source.
iv) Geothermal Energy: Geothermal energy is derived from the heat within the Earth's core. It is
typically harnessed by tapping into underground reservoirs of hot water or steam, which can be
used for heating buildings, generating electricity, or providing direct-use applications like
greenhouse heating.
v) Biomass Energy: Biomass energy is produced from organic materials, such as wood, agricultural
residues, and organic waste. These materials can be burned directly for heat or converted into
biofuels like bioethanol and biodiesel for transportation and electricity generation.
vi) Ocean Energy: Ocean energy includes various forms of energy generated from the movement of
tides, waves, and ocean currents. It is an emerging and still-evolving source of renewable energy
with the potential for sustainable power generation near coastlines.
vii)Tidal Energy: Tidal energy is generated by the rise and fall of tides in coastal areas. Turbines
placed in tidal streams can capture the kinetic energy of the moving water and convert it into
electricity.
viii)Wave Energy: Wave energy is harnessed from the up and down movement of ocean waves.
Various technologies, including oscillating water columns and point absorbers, can capture wave
energy and convert it into electricity.
ix) Algal Biofuel: Algae can be cultivated and converted into biofuels, such as biodiesel and
bioethanol, offering a sustainable alternative to fossil fuels.
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Many authorities predict that applications of nanotechnologies will ultimately pervade virtually every aspect of life and will enable dramatic advances to be realized in most areas of communication, health, manufacturing, materials and knowledge-based technologies. Even if this is only partially true, there is an obvious need to provide industry and research with suitable tools to assist the development, application and communication of the technologies. One essential tool in this armoury will be the harmonization of the terminology and definitions used in order to promote their common understanding and consistent
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This terminology attempts not to include terms that are used in a
manner consistent with a definition given in the Oxford English
Dictionary [1], and terms that already have well established meanings and to which the addition of the prefix “nano” changes only the scale to which they apply but does not otherwise change their meaningThe multidisciplinary nature of nanotechnologies can lead to confusion as to the precise meaning of some terms because of differences in usage between disciplines. Users are advised that, in order to support the standardization of terminology, this PAS provides single definitions wherever possible
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