Very well explained and fantastic mathematical analysis. I guess no one in the industry does such deep analysis and help customers with proper information. Keep up the good work sir
Sir, it would be great if you could start a series of online webinar episodes to provide training related to solar installations and dissemination of best practices in solar rooftop plants.
good explanation . could you complete it by covering the demand side of it . You mentioned that the customer had a demand of 18 units/day . It could be that 18 units are consumed with 750W load for 24 hrs or 2000W ( like AC) for 9 hrs . How should we select the inverter/microinverter and battery under such varied condition/load . The battery is supposed to will be 18000Wh / 12V = 1500Ah ( which means I will need 10 , 150Ah battery) and the invertor needed shall be 25% more than max load ( 2000W) ie. 2500W or 2.5kVA . So complete system 450W panel - 10 nos 2.5kVA inverter 150Ah tubular battery - 10nos am I correct ?
Really mind blown by the clear cut explanation. Couldn't skip a second because of the way you taught. I was going back to my engineering days.
Very well explained and fantastic mathematical analysis. I guess no one in the industry does such deep analysis and help customers with proper information. Keep up the good work sir
Glad it was helpful!
Good Presentation. Very clearly explained so that everyone can understand the method of calculation ..Thank you
Great Analysis!
Such a detailed, simple and concise explanation 🙏🏼🙏🏼
Sir, it would be great if you could start a series of online webinar episodes to provide training related to solar installations and dissemination of best practices in solar rooftop plants.
If you need that kind of training it’s better to attend an offline course
Very helpful sir for students & profetionals!👍
Great sir
excellent presentation
Nice explanation
Very nicely and gave very detailed explanation... Great... :-)...
good explanation . could you complete it by covering the demand side of it . You mentioned that the customer had a demand of 18 units/day . It could be that 18 units are consumed with 750W load for 24 hrs or 2000W ( like AC) for 9 hrs . How should we select the inverter/microinverter and battery under such varied condition/load . The battery is supposed to will be 18000Wh / 12V = 1500Ah ( which means I will need 10 , 150Ah battery) and the invertor needed shall be 25% more than max load ( 2000W) ie. 2500W or 2.5kVA .
So complete system
450W panel - 10 nos
2.5kVA inverter
150Ah tubular battery - 10nos
am I correct ?
I wonder if having a tracking system will increase the Psh...?
Perfect, thumb rule, thanks
This is great, thanks
Why thickness of panel is deducted from panel length and breadth.
God help her 🙏
PSH (peak solar hours ) PSH * plant capacity * PR