Solar Pond Essay

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sustenance and is done through applying a thermal application under low temperature condition. The complete implementation process for solar ponds enables following key steps (Bhubaneswari, Iniyan &Ranko, 2011):
4.1.1. Setting up insulation process
The insulation process to manage solar pond is done through setting up three zones that uses water as key absorption to manage solar radiation and able to collect energy in form of medium thermal storage energy. The three set zones that enable insulation process are lower zone, surface zone and gradient zone. These zones are prepared using salt solution of concentrated homogeneous so that threat insulation process can be done. There is further occurrence of thermal insulation in the gradient zone.
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The place needs to be properly ventilated and ensure that sun light is available throughout the day and set up on right axes to give maximum velocity to generate solar energy. The area should not be covered by trees, or shade of other towers or mountain and sun rays angel should be directly be available (Chu, 2011).
5.6. Power Output setting
The power output setting can be done after evaluating the requirement and setting up the right output so that maximum power generation through solar energy can be further distributed to the outlets and able to drive energy in such a way that there is not much scarcity. The power output is linked with solar input source so that it can be available round the clock and able to generate right KV source for various devices (Dale, 2013).
6. Monitor situation and follow-up with corrective actions
There is need to constantly monitor situation around solar tower so that consistency and conservation level remains high. The regular monitoring helps long term substance of tower and able to deliver effective output. The key steps around situation monitoring are done through following key steps (Arasu & Sornakumar,
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TES uses full storage system and limit the load so that right level of satisfactory storage can be achieved. TES enable effective solar design and therefore the TES flow need to be checked on regular basis so as track the tariff program and stored electricity (IEA, 2010).
6.3. Tracking real time performance
The major parameters to track performance would be around first tracking the conversion rate. The newly deployed solar tower using advanced solar panel can help achieve conversion rate around 70% or plus. If there is lower conversion rate than panel axis and other details need to be reviewed. The input and output parameters should be defined so that there is regular flow of energy can be generated and supplied to the sources (Dale, 2013).
The maximum performance can be enabled at 28.8 volts through deploying 72 photovoltaic cells at one of the tower. The output should be in form of direct voltage at 48V, 24V and 12V values. The carbon footprint can also be tracked in form of CO2 emission that can be reduced through using solar energy (Fanni, Virtuani, Chianese,

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