Propane generator efficiency?

Propane has around 92,000 BTU or 27,000 Watt*Hours per gallon of "Heat" energy...

https://www.calculateme.com/power/kilowatts/to-btus-per-hour/27
https://www.answers.com/Q/What_is_the_octane_number_of_propane

And the amount of kWatt*hours per gallon of propane using a 5,500 Watt Cummins/Onan RV genset specification:

https://www.centralmainediesel.com/order/Cummins-Onan-QG5500-RV-Generator.asp?page=Cummins_QG5500

Consumption at No load	0.4 GPH
Consumption at 3/4 load	0.8 GPH
Consumption at full load	1.1 GPH

I suggest that most people use less than 50% of genset capacity for "normal" household/RV loads on average... If you are charging a battery bank, suggest around 80% loading for non-commercial gensets (derating for continuous running at "full load").

Using 3/4 load at 0.8 GPH:

• 5,500 Watts * 0.75 loading * 1 hour runtime * 1/0.8 GPH = 5,156 Watt*Hours per gallon of propane
• 5,156 WH = 17,593 BTU of heat (for 1 gallon of propane)
• 17,593 BTU of electrical "work" / 92,000 BTU of heat (all per 1 gallon of propane) = 0.19 = 19% propane genset efficiency (75% loading)
• 1/0.19 ~ 5.3 times more "heat" in propane vs genset driving electric (resistance) heater

A large utility power station running Natural gas with very efficient gas turbines can hit around 50% (roughly) thermal efficiency...

Propane has less "thermal energy" per gallon vs gasoline (or oil, diesel, etc.). Propane does have a higher "octane rating" that typical gasoline--So if you upped the compression ratio, you could probably get better thermal efficiency from propane vs a mixed propane/gasoline genset.

Inverter-Generators tend to be more fuel efficient at less than 50% loading (and fairly fuel efficient down to 25% loading) vs "standard" gasoline/propane/natural gas gensets--Whose GPH fuel consumption tends to plateau at 50% fuel flow from 50% loading down towards 0% loading.

Diesel (non-spark) engines have better thermal efficiency at 100% power and less than 50% power (although, diesels can have issues with running at 50-40% or less loading--carbon buildup, wet stack, glazing cylindars at low pressure, etc.) (and diesel more BTU per gallon) than spark ignition/throttle plate regulated engines ("pumping" losses as throttle plates close for lower power needs).

Generally, running genset in morning at 80% loading (charging battery in "bulk" mode--towards 80% or so state of charge)--Lets genset run in more efficient region (>50% loading). And shut down to let solar take care of "absorb" charging where current slowly tappers off to less than 1% rate of charge as battery reaches 100% State of charge.

You can look around and find other charts for fuel usage on a genset:

https://www.centralmainediesel.com/order/Honda-10kw-Propane-Generator.asp?page=H04590

Larger engines tend to be more fuel efficient than smaller engines at >50% loading.... Running a large genset at low output loading (much less than 50% loading)--Generally is a waste of fuel... Run large genset for "bulk charging" a battery bank. And a smaller genset (or solar) for absorb charging battery bank/running random daytime loads.

I run a Honda eu2000i inverter-genset on 1 gallon of fuel for ~4-9 hours per gallon (1,800-450 Watt loads) (a couple fridge+freezers, koi pond pump, some lighting, etc. during power failures. A larger 3,500 Watt standard genset may use 2-4x more fuel vs inverter-genset.

Perfectly good Champion 3,500 Watt genset will run 12 hours on 4.7 gallon fuel tank at 50% (or less) loading (at almost 1/3rd the purchase price of a Honda eu2x00i genset).

https://www.amazon.com/Champion-Power-Equipment-100522-Generator/dp/B07BYLKLFK

Numbers above are very rough, and not that accurate--But close enough for planning.

Make sense?

-Bill

50% thermal efficiency for a utility power plant sounds good... Then add something like 50% distrbution losses (loss as heat, theft, transformer losses, etc.)... And the "thermal efficiency can drop to:

https://www.electricalindia.in/losses-in-distribution-transmission-lines/ (nice overview from Indian writer--Agrees with what I have read over the years from elsewhere)

• 50% thermal efficiency * 50% "transmission/distribution/etc. efficiencies" = ~25% end to end thermal efficiency to the home

Vs 20% gasoline/propane local genset efficiency... Under (roughly) optimal conditions... Run your genset at 10% load--Not near as good efficiency... Some places I have read about (in Africa) have gone with "village scale" "hybrid generator systems"... Basically the same as a Prius. Genset to supply peak loads (dinner time, cooking, lights, etc.) charge battery bank for use during off peak times night--morning--With an AC inverter. Run the genset at optimum fuel flow/AC output. Run AC inverter+battery bank during off peak times. Save fuel and runtime on genset.

So we are back to utility scale where they can (or at least used to be able) buy huge amounts of fuel at low costs... Vs $3-5+ gallon per gallon (gasoline and Diesel) as we have recently seen in California...

-Bill