Hello! A great resources as ever. Will definitely get into your online course... In the meantime, please advise, are solar energy projects requrie essentially the same logic with the only difference that instead of the wind density you get some solar density? Will that need some "long-term" reference data? Also, it looks like the presentation is a little cut out in the end - you say that we have an average annual data for the winds which makes those data rather a range of energy outputs. So how is it accounted for in the projects - through scenarios, or is it just going to be on a conservatve side hence will make me take the lower end of the range as reference? Thanks!
they seay the mark of a genius is to explain hard things easily and you have done that...thanks alot
You guys are absolutely crushing it. Thank you so much
Great explanation!
Hello! A great resources as ever. Will definitely get into your online course... In the meantime, please advise, are solar energy projects requrie essentially the same logic with the only difference that instead of the wind density you get some solar density? Will that need some "long-term" reference data? Also, it looks like the presentation is a little cut out in the end - you say that we have an average annual data for the winds which makes those data rather a range of energy outputs. So how is it accounted for in the projects - through scenarios, or is it just going to be on a conservatve side hence will make me take the lower end of the range as reference? Thanks!
I also know a very simple wind forecast application - Cyclono
Very helpful!
Glad it was helpful!
I love how you insult 3 laggard countries. Top-notch content!
Thanks
Sir , i need a help. Can you send me this pdf file ? This is my graduation project. So it would be much helpful for me.
The curve you showed is lognormak distribution which is special case of weibull. Its skewed at one side because it cannot take negative values.