Hope you experts will help me regarding this.
In a hydroelectric project water stored in a reservoir pumps to upper hill tank from there rooted to down powerstation through penstockes. I couldn't understand the efficiency of this system. my question is:
Energy used for pumping lower level water to higher level.
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Energy generated from taking the higher level water to lower level powestation.
Hope you experts will help me regarding this.
In a hydroelectric project water stored in a reservoir pumps to upper hill tank from there rooted to down powerstation through penstockes. I couldn't understand the efficiency of this system. my question is:
What's to understand? - efficiency is fairly low - but it's used to store energy during low power consumption periods, where the electricity would be 'wasted' otherwise.
Then, during sudden peak demand, the water can be released and very quickly generate multi-megawatts.
There's a classic example in Wales near Snowden - the power station is built entirely in a mountain, and pumps water to a lake at the top. It's a tourist attraction, you go in on a coach - it's really pretty cool.
What's to understand? - efficiency is fairly low - but it's used to store energy during low power consumption periods, where the electricity would be 'wasted' otherwise.
so you mean when some power is generated, it should be fully utilized anyway?
y can't turn off some of the generators when low consumption time and save that wasting of energy.
so you mean when some power is generated, it should be fully utilized anyway?
y can't turn off some of the generators when low consumption time and save that wasting of energy.
There's a point that generators run at where they are most efficient, it makes sense to run them at that level as much as you can - bear in mind you can't stop and start normal power stations in a few minutes. Even the stored power station takes time - although by powering the alternators from the grid (which takes megawatts to do) it can go to full power in a few seconds.
but is that applicable to both cases ryt? for not wasting the energy, we start up a storage pump at low demand hours. When a sudden peak demand comes then we have to turn off that pump because the sudden peak demands the energy used by the storage pump
but is that applicable to both cases ryt? for not wasting the energy, we start up a storage pump at low demand hours. When a sudden peak demand comes then we have to turn off that pump because the sudden peak demands the energy used by the storage pump
Yes. If the pump is being used to pump water uphill when there is surplus electricity, it can be shut off in seconds if there is a sudden surge in demand.
The ability to go from 1.3 GW load to 1.3GW of generation in a few seconds is quite neat.
First Hydro Dinorwig Power Station has some interesting facts and figures. They suggest that the station efficiency is about 75%. That is the total from electricity to rotation to water flow to potential energy to water flow to rotation to electricity.
That's not bad compared to the approx 60% efficiency of a car alternator and it only goes from rotation to electricity.
A car alternator is inefficient because it's small (the efficiency of motors and alternators goes up with size) and designed to work at a large range of speeds.
Yeah, I remember when I was in junior high (or was it high school?) and was shocked to learn that they didn't shut down some of the generators during the night because it took too long to start them back up again (like ~10 hours or so?) so they were just left running the entire night doing very little.