Question
hi can I please have this rephrased a bit so I can submit for my assessment and not get detected. Advantages There are many advantages
hi can I please have this rephrased a bit so I can submit for my assessment and not get detected.
Advantages
There are many advantages of using bifacial solar panels. Bifacial panels are 40% more efficient than 'monofacial/conventional panels' (J. Yacoubou., 2021), however 6-9 % is the typical increase in efficiency. Bifacial panels are competitively prices compared to conventional panels when made with similar quality and material type (J. Yacoubou., 2021) making them a very sensible upgrade from the conventional panel systems. Bifacial panels are also highly efficient by 11-12% (J. Yacoubou., 2021) due to the use of monocrystalline cells and the bifacial feature that allows for higher energy output. These panels require less space to produce the same amount of energy (H. Joshi., 2020) to conventional systems, this is due to the bifacial feature which allows for energy generation to occur from both back and front of the panel. Another great bifacial feature is the use of tempered glass (B. Douglas., 2021) which gives the overall product a much greater structural integrity and durability compared to conventional systems, to add to this is the factor of weather. Even when there is bad weather, the bifacial panel system will still produce an efficient amount of energy (B. Douglas., 2021) as the glass feature allows for solar rays to pass through the front and back of the panel therefore even when one side is affected by weather, the other side is shielded and still producing energy. Another fantastic advantage of bifacial panel systems is that no specific angle is required to absorb the sun (B. Douglas., 2021) at an optimal level making it easier for installation and improved aesthetic look.
Disadvantages
There are also some disadvantages of using bifacial panelling systems; the two biggest issues currently are the high costs associated with the installation of bifacial systems (H. Joshi., 2020) compared to conventional systems, this is due to the quality, technology, and cost to manufacture these panels there increasing the cost of panelling. Another disadvantage that goes hand in hand with installation costs is the factor of weight. Bifacial systems weigh significantly more than conventional systems (B. Douglas., 2021) therefore making installation and manoeuvring more difficult.
Building-integrated photovoltaics (BIPV) Systems
Building-integrated photovoltaics are solar cells that 'replace asphalt shingles on our roof'. Each photovoltaic cell can produce roughly 60 watts; however, some can produce up to 100 watts per cell. Building-integrated photovoltaics also use a 'thin-film technology' (J. Yacoubou., 2021) unlike that of conventional solar panels.
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