Pumping water downhill to increase psi on micro hydro
Pumping water downhill to increase psi on micro hydro
(OP)
I am trying to come up with a solution to increase pressure and power on my micro hydro turbine. I am siphoning from a pond using 6" pvc. The penstock runs about 300 feet with 80 to 90 feet of head. I currently have 40 psi at the bottom generating about 1000 watts(I think). Is it possible to use a pump to add pressure to the line given the power consumed by the pump is low or solar? Can I regulate how much pressure the pump puts out?





RE: Pumping water downhill to increase psi on micro hydro
Yes you can regulate the pump output - but at the end of the day, installing a pump, motor, cables, flow regulation etc may not be economical. A second turbine may be a better option.
It is a capital mistake to theorise before one has data. Insensibly one begins to twist facts to suit theories, instead of theories to suit facts. (Sherlock Holmes - A Scandal in Bohemia.)
RE: Pumping water downhill to increase psi on micro hydro
RE: Pumping water downhill to increase psi on micro hydro
One exception could be if you really really NEED more power at your turbine - and cant get it any other way (but it will have a negative payback).
Im beginning to wonder - is this trolling (engineer style)?
Best regards
Morten
RE: Pumping water downhill to increase psi on micro hydro
Any extra power applied in that manner, other than direct hydraulic power (obtained by getting either more water head or water flow on/to the turbine), comes at a very, very, very large cost.
If you add say a 500 W pump, due to pump efficiency of, say 0.54 for a low power pump, the pump will only give an output of 270 Watts.
That 270 Watts New output power will be applied to the turbine. Due to turbine efficiency, say 0.70, only 270*.70 = 189 Watts will be recovered as output from the turbine.
True you got 189 New Watts output, but it cost you 500 Watts input.
The Efficiency of that transaction was 189/500 = 37.8 %
The efficiencies combine by the multiple of each power source.
0.700 * 0.540 = 0.378
It would be much better just doing this by adding more water flow (or more head) directly to the turbine, without the pump. Adding the same 500 W in direct hydropower on the turbine would get you 500 * 0.7 = 350 W instead of only the 189.
To make that attractive, you would have to buy and install the pump and its power source at a cost cheaper than adding the direct hydropower in either flow, or head, or a combination of both. And you would still have to pay for running that pump power source generator, a gasoline generator, or a solar generator, or grid power.
Let's say you go solar for that. You need 500 Watts of power supplied to the pump. For normal Si solar panels, efficiency say 17%, you have to install 500/0.17 = 2941 watts, say 3000 watts. Now with 3000 installed and only the same 189 W output from the pump, that's 189/3000 = 0.063 = 6.3 % efficiency on that little addition. And that probably cost you 3000 x $4/watt installed cost = 12,000. That's a bunch of money for only 189 watts total output.
If you just used the 500 Watts coming off the solar panels, you would get 500 watts, not just the measely 189 watts from the turbine.
Assuming no batteries and inverters for the solar panels. Add that for night work and/or an AC pump. No electric line losses counted either.
Furthermore, turbines are built for a specific water flow and head. If you change either, the turbine efficiency will be less than 0.70
Either go full hydro, full solar, some independent combination of both, but NEVER, NEVER, NEVER feed one to another and expect to gain much. The penalty of hooking them together is Eff 1 x Eff 2 x Eff 3 and so on.
True you can do it, but as you can see, you play a fools game.
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Pumping water downhill to increase psi on micro hydro
Your linesize is plenty large enough for a 300' run. If you have a properly sized Pelton wheel turbine and nozzle you should be able to get at least another 500-1000 watts out of your system. The link gives you calcs to come up with an accurate figure for your actual situation, but the table in the link gives you an idea of what you can do- the power available from a 4" penstock 500 ft long with 100 ft of head is about 4300 watts in the water jet or about 1900 watts extracted by the Pelton wheel.
RE: Pumping water downhill to increase psi on micro hydro
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Pumping water downhill to increase psi on micro hydro
It is not going to be feasible to add any pump considering the pump cost, the pumping efficiency is probably around 50-60%, and you only have a 1000 Watts system.
RE: Pumping water downhill to increase psi on micro hydro
0.7 x water power
0.7 x 0.6 = 42% of pump power rating
0.7 x 0.6 x 0.9 = 38% of motor power rating
Grid Powered Pump (include wire loss of power to motor, eff 0.95) I forgot wire losses in my calcs above.
0.7 x 0.6 x 0.9 x 0.95 = 36% of power to motor
Gasoline powered pump (38% gasoline to generator, 90% generator, include generator to pump wire loss)
0.7 x 0.6 x 0.9 x 0.95 x 0.38 x 0.90 = 12% (of gasoline energy added)
Solar Powered Pump (solar panels 17% eff, wire loss panel to pump 95% eff)
0.7 x 0.6 x 0.9 x 0.95 x 0.17 = 6% of solar power panel capacity
To find final delivered power after wire losses from turbine (subtract another 5%)
Each power source in the chain reduces overall efficiency and forces the successive cost/W of the added power source ever higher and higher.
(Assuming rough average efficiencies for low power, low capacity equipment and normal wire sizing criteria.)
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Pumping water downhill to increase psi on micro hydro
RE: Pumping water downhill to increase psi on micro hydro
I wouldn't assume that 300' of 6" penstock is the least expensive thing in his system. I have difficulty imagining that a 2000 watt Pelton wheel costs as much as what it took him to install this penstock. I know a guy who makes these wheels as a hobby business, and wheels that size can even be made of plastic.
At 6", he can get a lot more flow and hence a lot more power out of that penstock by buying a properly sized turbine and nozzles, and coupling them with an alternator which spins at the correct speed to match his flowrate.
RE: Pumping water downhill to increase psi on micro hydro
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Pumping water downhill to increase psi on micro hydro
TTFN
FAQ731-376: Eng-Tips.com Forum Policies