Jobs & Education2 mins ago
How Uneconomic Would It Be To Produce Fresh Water From Sea Water Using Solar Power?
Countries like Australia and Saudi Arabia, for example, have coastlines and lots of sunshine. The costs involved must be prohibitive or they'd be doing it.
Answers
I don't know the answer but can state with some authority, the Perth, P&K has no need of this witchcraft. :-)
13:16 Fri 11th Sep 2020
I don't know enough about how this would work to comment in too much detail, so the best I can do for the time being is refer you to the wiki article below:
https:/ /en.wik ipedia. org/wik i/Desal ination
Best I can tell, it *is* adopted in many of the places you mention, but it's not yet efficient or economical enough to be a main supply of fresh water.
https:/
Best I can tell, it *is* adopted in many of the places you mention, but it's not yet efficient or economical enough to be a main supply of fresh water.
Loads of countries who enjoy sunshine and hot weather do have de-salienation plants. Malta often suffers water shortages when their underground cisterns start emptying. They have a desalination plant in Marsasloxx Bay. How do you know a lot of these plants do not harness solar energy to operate them?
It would be low cost according to this report:-
https:/ /www.sc ienceda ily.com /releas es/2019 /01/190 1071312 42.htm
https:/
// it is expensive because large amounts of thermal energy are needed to heat the seawater.//
It is not necessary to heat the seawater, danny. There are thousands of desalination plants around the world and most of them use the "reverse osmosis" principle. This is effectively a sophisticated "straining" system and very little energy is needed:
https:/ /en.wik ipedia. org/wik i/Rever se_osmo sis
There is one on the river Thames in East London:
https:/ /london ist.com /2015/1 0/londo n-s-des alinati on-plan t
It is not necessary to heat the seawater, danny. There are thousands of desalination plants around the world and most of them use the "reverse osmosis" principle. This is effectively a sophisticated "straining" system and very little energy is needed:
https:/
There is one on the river Thames in East London:
https:/
About half of the water supplied to Perth, WA comes from desalination. (Source: https:/ /www.wa tercorp oration .com.au /Our-wa ter/Des alinati on )
It takes 3.5kWh of energy to desalinate 1 cubic metre of water at the Perth plant. (Source: https:/ /www.am taorg.c om/wp-c ontent/ uploads /07_Mem brane_D esalina tion_Po wer_Usa ge_Put_ In_Pers pective .pdf )
A solar farm such as this one planned for Cornwall
https:/ /www.go odenerg y.co.uk /media/ 1096/de labole- solar.p df
takes up 25 acres and produces 3MW of electricity.
Reaching for my calculator shows that the power from that solar farm (when it's running at full output, i.e. when the sun's shining brightly) could desalinate 857 cubic metres of seawater per hour.
The average household consumption of water in the UK is around 0.35 cubic metres. (Source: https:/ /energy savingt rust.or g.uk/si tes/def ault/fi les/rep orts/At Homewit hWater% 287%29. pdf )
Reaching for my calculator again shows that for each hour the 25 acre solar farm is producing maximum energy it could desalinate enough water for the daily requirements of 2455 homes. However it won't produce energy during darkness and it will run at considerably less output during cloudy conditions. Further, my calculations don't take into account the energy requirements of all the factories and offices where the residents of those homes will be working.
So the economics don't seem to be too good. In practice the Perth desalination plant draws much of its energy from wind power, rather than from solar power.
It takes 3.5kWh of energy to desalinate 1 cubic metre of water at the Perth plant. (Source: https:/
A solar farm such as this one planned for Cornwall
https:/
takes up 25 acres and produces 3MW of electricity.
Reaching for my calculator shows that the power from that solar farm (when it's running at full output, i.e. when the sun's shining brightly) could desalinate 857 cubic metres of seawater per hour.
The average household consumption of water in the UK is around 0.35 cubic metres. (Source: https:/
Reaching for my calculator again shows that for each hour the 25 acre solar farm is producing maximum energy it could desalinate enough water for the daily requirements of 2455 homes. However it won't produce energy during darkness and it will run at considerably less output during cloudy conditions. Further, my calculations don't take into account the energy requirements of all the factories and offices where the residents of those homes will be working.
So the economics don't seem to be too good. In practice the Perth desalination plant draws much of its energy from wind power, rather than from solar power.
Engineers from the Department of Energy of Politecnico di Torino has developed a new model to desalinate seawater in a sustainable and low-cost way, utilizing solar energy extra efficiently. Compared to previous solutions, it can double the amount of water generated at given solar energy, and it may be subject to further efficiency improvement soon.
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