Report for project A1017-101on hybrid solar PV thermal (PVT) system using a tracking solar trough I
This report is an attempt to illustrate the author‘s experience in constructing a functioning prototype of a Hybrid Solar Sun Trough and present the results and findings through the studies conducted using the prototype. The project team conducted several studies with regards to the above m...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
2011
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/45860 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | This report is an attempt to illustrate the author‘s experience in constructing a
functioning prototype of a Hybrid Solar Sun Trough and present the results and
findings through the studies conducted using the prototype.
The project team conducted several studies with regards to the above mentioned
application and one of them is on the possible increase of power output by applying a
Hybrid Solar Sun Trough with a simple sun tracking mechanism on a strip of solar
module that is made up of 9 mono-crystalline, back contacted silicon cells rated
29.7W as compared to its output in a stationary horizontal position. The result were
reasonably conclusive as the module harnesses an excess of 10Watts when the
Hybrid Solar Sun Trough is applied as compared to the stationary horizontal position.
The module was also noted to record outputs that outperform its rated power. The
maximum power output at one point was 35.04W.
With the knowledge gained from the literature review on the possible heat effects on
the cell, and understanding that converging heat on the focal area of the trough is and
inevitable by-product, the project implemented a cooling system to mitigate this
factor. A simple verification study on the effects of heat on the cell output was
therefore performed in conjunction with an investigation on the possibility of
harnessing of warm water from the output of the cooling system for domestic
purposes to maximise the potential of the application. The findings on the 2 above
mentioned studies appeared that at this level of convergence of sunlight, the heat
effects is not pronounced when applied with a cooling system running at 0.448l/min
& 0.938l/min respectively. It is also witnessed that the temperature behind the cell
with cooling at 0.448 l/min reached 63.7°C, while the water harnessed from the
cooling system output reach 57.5°C which is comparable to water temperature in the
hot spring.
The scopes and objectives of the project was therefore declared fulfilled however
several recommendation were raised through the observations by the author to
suggest further improvement on the studies. |
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