One thousand cubic feet of gas (Mcf) -> 1.027 million BTU = 1.083 billion J = 301 kWh
93,000 B.T.U. per U.S. gallon 3.78 liters per gallon- 93,000 divided by 3.78 =24,603 24,603 B.T.U.'s per liter of propane
There are zero s-1 in a hertz (Hz). The unit hertz is defined as one cycle per second, not cycles per second per second (s-1).
Liquefied Petroleum Gas (LPG) has a calorific value around 94 megajoules per cubic meter. Just for comparison, natural gas varies between 33 and 42 MJ/m3. Stoves with high speed burners are 30% more powerful than standard burners. Rapid burners deliver above 6000 BTU´s, super rapid burners deliver above 10 000 BTU´s, an Iwatani portable stove delivers up to 15 000 BTU´s and a Viking Special 16 000 BTU´s. No matter the efficiency of the combination between your stolve and the quality of the gas available, plus the variables such as distance between the pot and the burner, bottom area of the pot in contact with the flame, airflow etc., you figure out how inaccurate our calculation can be. We maybe wrong by half or by double. Imagine that you have a burner producing 12 322 BTU´s (13 000kJ or 3 611 Watthour ), with the entire flame in contact with the bottom of the pot with a final efficiency (discounting all the losses between the flame and the water inside the pot) of 0.65, you would have 8 450 kJ or 2 347 Watthour being delivered to the water. Again, given all the variables, this can be very inaccurate. Remark: 1 Joule is 1 Wattsecond, 3600 J is 1 Watthour or 60 Wattminute.
I don't think there is any equivalency.... A watt isW = J/s = (N*m)/s = ((kg*(m/s^2))*m)/s = kg*(m^2))/(s^3)Therefore: W*kg = (kg^2)*((m^2)/(s^3)) which is not equal to N = kg*(m/s^2)I guess the closest answer would be :1 kg*W = (1 kg*m/s) N or1 kg*W = (1 N*s) N
There are 9.81 newtons in 1 kilogram-force (kgwt) when on Earth's surface, as gravity exerts a force of 9.81 m/s^2 on a mass of 1 kg.
1320 btu`s
Heating units are not measured in tons as AC units are. Heating capacity is referred to in 1000`s of btu output per hour of operation. The ratio of input vs output = the efficiency rating, for example if your home furnace is rated at 100,000 btu per hour input and 80,000 btu per hour output . it is 80% efficient (when it was new). For AC 12.000 btu = 1 ton.
1055 watts = 1 BTU/s, so 9000 watts x 1 BTU/s/W x 3600s/hr = 30,710BTUH, or about 2 1/2 tons.
2.5 tons. 1 ton =12,000 btu so 30,000 btu=2.5 tons. The 30 in the model # denotes btu of the unit in 1000`s.
17 million btus in 5 million watts
90,000 BTUs - the 090 is what tells you the BTUs of the unit.
4 ton 048 in model is btu,s
not sure
Divide the btu output rating by the btu input rating. Both of these values can be found on the furnace`s nametag.
That depends on the starting temperature, the substance being heated, and how well insulated it is from its surroundings.
180 thousand BTU,s or 1.8 Therms.
93,000 B.T.U. per U.S. gallon 3.78 liters per gallon- 93,000 divided by 3.78 =24,603 24,603 B.T.U.'s per liter of propane