In relation to fuel consumption How do you convert from grams per kilowatt hour to litres per hour
You need to multiply by a conversion factor in the form of Hp lbs / Kw g. This can be arrived at in two steps:
1) Multiply by lbs / gram to get lbs / HP-hour.
2) Multiply by HP / Kw to get lbs / Kw-hour
lbs / g = 0.00220462262 and HP / Kw = 1.34102209, so your complete conversion factor is:
0.00220462262 * 1.34102209 = 0.00295644763 (HP lbs / Kw g)
Conversion factors like lbs / g can be found by typing "1 g in lb" into Google. This gives a denominator of 1 in the fraction, so the result you get back is the conversion factor.
Any time you're doing multiple conversions like above, you can multiply the different conversion factors together to get a single one. This saves steps if you'll be converting a bunch of data by hand or something.
>>M.T.<<
We recognize the second quantity as a "flow-rate". The first one is an animal
that we haven't encountered and, we suspect, has no physical meaning.
In order to estimate the feasibility of converting one to the other, we glance quickly
at their physical dimensions:
Gram per kilowatt-hour = (mass)/(energy) = (mass) / (force-length) =
(mass) / (mass-length2/time2) = (time)2 / (length)2
Litre per hour = (volume) / (time) = (length)3 / (time).
We don't have to go any further. Since their physical dimensions are different,
they can't be converted one to the other.
453.6 grams of mass weigh 1 pound.
"grams per kwh" = (mass)/(energy). This works out to be equivalent tounits of (time)2/(area) , and has no physical significance in everyday life."liters per hour" = (volume)/(time). That could be the flow rate of waterthrough a hose, or the rate at which a brewery produces beer.The two units have radically different physical dimensions, and the quantitiesthey measure ... if the first one even exists ... have no similarity whatsoever.There's no way that these units could ever be converted one to the other.
400 Kwh per year (1996 - 120 liters)
0.8 grams per milliliter equates to 80 grams per deciliter.
3.7584 × 10-7 kL per day
Easy. Multiply grams per milliliter by 1,000 to get grams per liter.So, 1.56 x 1,000 = 1,560 grams per liter.
In relation to fuel consumption How do you convert from grams per kilowatt hour to litres per hour
The two sets of units are not compatible. While a gallon may be converted to a litre, there is no relationship between kWh and hour.
Divide the dollars per kWh by 3,412.14163
If you mean dollars PER mwh and cents PER kwh, divide by 10.
You multiply by the density. Density is usually given grams per milliliter or kilograms per liter or grams per cubic centimeter, which are all interchangeable. Multiply by the density and then multiply by 1000 if given in one of the above units.
Typically you would use 0.276 litres/kWh for HSD and 0.234 litres/kWh for HFO
"grams per kwh" = (mass)/(energy). This works out to be equivalent tounits of (time)2/(area) , and has no physical significance in everyday life."liters per hour" = (volume)/(time). That could be the flow rate of waterthrough a hose, or the rate at which a brewery produces beer.The two units have radically different physical dimensions, and the quantitiesthey measure ... if the first one even exists ... have no similarity whatsoever.There's no way that these units could ever be converted one to the other.
Multiply by 3600.
No. ppm is a pure number - a ratio. g per kwh is a measure of mass per energy with dimensions: [L-2][T2]
1 KWh is 1000 joules- hours per second so you change hours to seconds to get; 1 KWh = 1000 x 3600 joules - sec per sec which is 3600000 joules.
You need to know the density of what you are talking about. Then, simply divide the mass (i.e. 200 grams) by that density in grams per litre or grams per pint. Other measurements like ounces or pounds per litre or per pint can be converted to gL-1 or g/p.
Convert 40% oxygen to liters