Calculate the area of water suspended at 500m to produce 23TWh

HorseRidingTic · Nov 16, 2016

Calculate the area of water, suspended at 500m, needed to produce 23TWh of energy
I've done a calculation but the answer seems far too small
If I needed to store the UK's supply of energy for three months i.e. 23TWh of energy
in a reverse pump hydro storage at an elevation of 500m
using
P=mgh

I've got an answer of 395m x 395m if the water was 30m deep but this seems way too small.

HorseRidingTic

lurflurf · Nov 16, 2016

How did you get that? Your answer is about 1250 swimming pools which would last 625 people about a year or 2500 people 3 months (assuming about 5.5 MWh per person per year). There are like 64 million people in UK so you need lots more, like 160^2 times more.
Edit I was looking at the 3 months maybe 85^2 times more for 23 TWh which is less than the 88 TWh I assumed.

phyzguy · Nov 16, 2016

I think that amount of stored energy is 23*10^12 J, or 23 TW-s, not 23 TW-h. You forgot the 3600 seconds in an hour, which will make the amount of water needed 3600 times larger.

Calculate the area of water suspended at 500m to produce 23TWh

Related to Calculate the area of water suspended at 500m to produce 23TWh

1. How do you calculate the area of water suspended at 500m?

2. What is the significance of the 500m depth in this calculation?

3. What is the unit of measurement for the area of water suspended at 500m?

4. How does the calculation of the area of water suspended at 500m relate to producing 23TWh?

5. What factors can affect the accuracy of the calculated area of water suspended at 500m?

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