You should spend about 20 minutes on this task.
The diagram below shows how a solar powered water pump works.
Summarise the information by selecting and reporting the main features, and make comparisons where relevant.
You should write at least 150 words.
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Sample Report 1
The given illustration demonstrates the process of delivering water to a village using a solar-powered pump system.
Overall, the system consists of three main components: solar panel photo-voltaic cells, an underground bore or well, and a water tank. The solar panel absorbs the sun's energy and converts it into direct current electricity, which is then used to pump water from the bore to the tank.
The system starts with the solar panel's photovoltaic cells, which capture the sun's enormous heat energy and convert it into direct current electricity. The panel is mounted on a pole, facing the sun, and fixed above the ground. The direct current generated by the panel is sent to the bore pump located beneath the water level inside the well.
Following this, the bore pump uses a pipe to pump water from the well to the water tank, located on the ground surface. The water remains in the tank until it is distributed to the village. The pump's operation is controlled by the power generated by the solar panel, ensuring efficient utilization of the available solar energy. To put it simply, the process involves the solar panel capturing the sun's energy, which is used to pump water from the bore to the tank, providing a dependable and eco-friendly water delivery system for communities.
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Sample Report 2
The illustration depicts a solar-powered water delivery system for a village.
Overall, the system comprises three primary components, namely, solar panel photo-voltaic cells, an underground bore or well, and a water tank. The solar panel captures the sun's energy and converts it into direct current electricity, which powers the bore pump to lift water from the well and fill the tank.
The system begins with the solar panel's photovoltaic cells, which harness the sun's colossal thermal energy and convert it into direct current electricity. The panel is strategically placed on a pole to face the sun and is fixed above the ground. The direct current produced by the panel is then routed to the bore pump located beneath the water level inside the well.
Next, the bore pump uses a pipeline to pump water from the well to the water tank, which is situated on the ground surface. The water remains in the tank until it is ready to be distributed to the village. The pump's operations are efficiently regulated by the power generated by the solar panel, thereby ensuring optimal use of available solar energy. To essence, the process involves the solar panel capturing the sun's energy, transforming into direct current electricity which powers the bore pump to lift water from the well and fill the water tank.
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Sample Report 3
The illustration shows how water is delivered to a village using a solar-powered pump.
Overall, the mechanism involves three major components, namely, solar panel photo-voltaic cells, underground bore or well and a water tank. The solar energy is captured by the panel and transformed into DC electricity, which is then sent to the underground bore to be utilized to pump water for the village.
The process begins with the enormous heat energy from the sun, which is stored in the photovoltaic cells of the solar panel and used to produce direct current. The panel that faces the sun is mounted on a pole that is fixed above the ground. The DC power generated from the panel is channelled to the bore pump which is placed below the water level inside the well. Thereafter, using a pipe connecting the well with the tank, the bore pump pumps water to the water tank located on the ground surface. The water remains there until it is distributed to the village.
Sample Report 4
The given illustration depicts a sustainable and cost-effective water delivery system that relies on solar energy.
Overall, this system involves three main components: solar panel photo-voltaic cells, an underground bore or well, and a water tank. The solar panel absorbs the sun's energy and transforms it into direct current electricity, which is then utilized to pump water from the bore to the tank.
The process begins with the photovoltaic cells of the solar panel, which capture the sun's enormous heat energy and convert it into direct current electricity. The panel is securely mounted on a pole, facing the sun and elevated above the ground. The direct current generated by the panel is conveyed to the bore pump, located beneath the water level inside the well.
Thereafter, the bore pump extracts water from the well, using a pipe, and pumps it to the water tank situated on the ground surface. The water stays in the tank until it is distributed to the village. Thus the pump's operation is regulated by the power produced by the solar panel, ensuring optimal utilization of the available solar energy.
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