Difference between revisions of "Semantic Sandbox"
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| − | == | + | = <span style="color:#00A3AD">Introduction</span><br/> = |
| − | + | Solar energy is the energy the earth receives from the sun, primarily as visible light and other forms of electromagnetic radiation. Solar power is among the readily available renewable energy sources on earth, but its availability and characteristics vary strongly from one region to another.<br/> | |
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| − | + | The solar power potential is highest in regions close to the equator, which overlap with many countries of the Global South. Especially in off-grid areas, the use of solar energy in agriculture, can considerably enhance livelihoods, enabling access to irrigation, cooling, drying and other agri-food processing devices. Despite the suitability of these regions for solar power and the potential to improve living standards, many barriers still hinder end users from adopting this clean energy, among others, the lack of information and access to finance. To overcome these obstacles, different approaches have been developed with the aim of mainstreaming access to solar power. '''<span class="link3">[[Solar Energy|Read more ...]]</span>'''<br/> | |
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| + | [[File:Futurepump in Kenya. Woman looking up towards the sky.jpg|thumb|center|600px|Solar energy can be utilised for agriculture in various ways (GIZ/Böthling).|alt=Futurepump in Kenya. Woman looking up towards the sky.jpg]] | ||
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| − | == | + | = <span style="color:#00A3AD">Technologies</span><br/> = |
| − | + | <span class="link3">Depending on the solar resource potential and its quality, solar energy can serve different purposes, leading to a large diversity of solar technologies. They can be either passive or active, depending on how sunlight is captured, converted and distributed. '''Active solar technologies''' include [[Photovoltaic (PV)|solar photovoltaic]] and [[Solar Thermal Technologies|solar thermal]]''' '''systems; which convert sunlight into useful energy. '''Passive solar techniques''' involve designing buildings, materials and spaces in a way that allow optimizing the use of solar energy, such as orienting a building towards the sun or selecting materials with favourable thermal conductivity or insulation properties. '''<span class="link3">[[Solar Energy|Read more…]]</span>'''<br/> | |
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| − | < | + | <span class="link3">'''Solar photovoltaic energy '''can be used to power pumps in irrigation systems (see [[#Solar_Powered_Technologies_for_Irrigation|next section]]) , improving agricultural yields and saving costs for other fuels like diesel. It can also power refrigerators (see below), overcoming the problem of electricity shortages, which interrupt the cold chain, enhancing access to cooling equipment in ‘off-grid’ regions and reducing post-harvest losses. '''<span class="link3">[[Productive Use of Solar PV|Read more…]]</span>'''<br/> |
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| − | + | '''Solar thermal energy''' is used in agri-food processes like drying. As opposed to sun-drying, solar drying avoids contamination of the harvest with impurities from the ground and increases energy efficiency. The latter can be enhanced by using photovoltaic energy to power artificial aeration systems .<br/> | |
Revision as of 08:14, 19 August 2020
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Introduction
Solar energy is the energy the earth receives from the sun, primarily as visible light and other forms of electromagnetic radiation. Solar power is among the readily available renewable energy sources on earth, but its availability and characteristics vary strongly from one region to another.
The solar power potential is highest in regions close to the equator, which overlap with many countries of the Global South. Especially in off-grid areas, the use of solar energy in agriculture, can considerably enhance livelihoods, enabling access to irrigation, cooling, drying and other agri-food processing devices. Despite the suitability of these regions for solar power and the potential to improve living standards, many barriers still hinder end users from adopting this clean energy, among others, the lack of information and access to finance. To overcome these obstacles, different approaches have been developed with the aim of mainstreaming access to solar power. Read more ...
Technologies
Depending on the solar resource potential and its quality, solar energy can serve different purposes, leading to a large diversity of solar technologies. They can be either passive or active, depending on how sunlight is captured, converted and distributed. Active solar technologies include solar photovoltaic and solar thermal systems; which convert sunlight into useful energy. Passive solar techniques involve designing buildings, materials and spaces in a way that allow optimizing the use of solar energy, such as orienting a building towards the sun or selecting materials with favourable thermal conductivity or insulation properties. Read more…
Solar photovoltaic energy can be used to power pumps in irrigation systems (see next section) , improving agricultural yields and saving costs for other fuels like diesel. It can also power refrigerators (see below), overcoming the problem of electricity shortages, which interrupt the cold chain, enhancing access to cooling equipment in ‘off-grid’ regions and reducing post-harvest losses. Read more…
Solar thermal energy is used in agri-food processes like drying. As opposed to sun-drying, solar drying avoids contamination of the harvest with impurities from the ground and increases energy efficiency. The latter can be enhanced by using photovoltaic energy to power artificial aeration systems .
