Yes, usually. 100 watts equates to about 341.21 BTU per hour.
60 000 thousand btus
Well, unfortunately there are different BTUs, each a slightly different quantity of energy.The BTU (ISO) is 1054.5 joules exactly. Let's use that one, and avoid some rounding.10 kW = (10,000 joules/second) x (3,600 seconds/hour) x (1 BTU/1,054.5 joules) = 34,139.4 BTU/hour
To convert CFH to BTU, you need to use the formula 1 CFH which is equivalent to 1000 BTUs.
1 kWH = 3.6 megajoules of energy and 1 BTU = approximately 1055 joules.1 kWH = 3412.3 BTUSo a million BTUs would be 3.4123 billion BTUs (3.4 x 109 BTU)However, this is not an exact conversion because kWH is energy exerted over time, while BTU is energy content.(see the related question)
The formula is simple. One ton of cooling equals 12000 btu. So a three ton A/C has a 36000 btu capacity.
The BTU input and output ratings are on the same tag as the model #.
35000 BTUs per hour of usage for a standard sizing installation. As low as 22000 BTUs for smaller units.
12,000 btus = 1 ton of cooling ....... A 1 ton a/c unit will remove 12000 btu/hour
BTUs and kilowatts measure different types of quantities. A BTU (British Thermal Unit) measures heat (energy), while a kilowatt (1000 watts) measures power (energy per unit time). 1 BTU equals 0.0002928 kilowatt-hour 1 BTU/minute equals 0.01757 kilowatt. To convert a watt to BTUs, the factor is 1 kilowatt of power = 3412.1416 BTU/hr 3.412 BTUs equal a watt-hour. 1 kW = 3412.1416 BTU/hour with appropriate significant figures 3*103 BUT per hour
60 000 thousand btus
To convert a watt to BTUs, the factor is 1 kilowatt of power = 3412.1416 BTU/hr 3.412 BTUs equal a watt. 1200 watt = 4094.4 BTUS you will need to remove about 4100 BTU/hr
1 Watt = 3.412141633 BTU/hour, so multiply the number of watts (that are converted to heat) by the factor, to get BTU per hour. Multiply this by the number of hours that it is running, to find BTUs.
Well, unfortunately there are different BTUs, each a slightly different quantity of energy.The BTU (ISO) is 1054.5 joules exactly. Let's use that one, and avoid some rounding.10 kW = (10,000 joules/second) x (3,600 seconds/hour) x (1 BTU/1,054.5 joules) = 34,139.4 BTU/hour
With 28,000 BTUs, the Friedrich SL28L30* has the most BTUs.
1MW = 1000 KW 1KW = 860 Kcal/Hour 1 Kcal = 3.968 BTu.
x BTUs / 3412.141633128 BTUs/KWH = KWH For example: -------------- If you burned 1,000,000 BTUs per month, then calculate the following: 1,000,000 BTUs / 3412.141633128 BTUs/KWH = ~293 KWHs per month Notes: ------- 1. Energy = the capacity/measure of a body/system to do work (expressed as the work that it does in changing to some specified reference state. It is measured in joules (SI units)). 2. 1 Joule = 1 Watt-second 3. 1 BTU = 1055.05585262 Joules (or Watt-seconds) 4. 1 WH (Watt-Hour) = 3.412141633 BTUs created/used in 1 hour = 3600 Joules or Watt-seconds (i.e. 1 Joule or Watt-second created/used every second for 1 hour) 5. 1 KWH = 1000 WH = 3412.141633 BTUs created/used in 1 hour = 3,600,000 Joules or Watt-seconds created/used every hour (i.e. 1000 Joules or Watt-seconds created/used every second for 1 hour) ======================================================== (1 KWH) = (1,000 watt-hour) = (1,000 joule / second) (hour) (BTU / 1055 joule) (3,600 sec / hour) = [ (1,000 x 3,600) / (1,055) ] [ joule - hour - BTU - second / second - joule - hour ] = 3412.3 BTU That's the amount of energy equivalent to 1 KWH . . . . . 3,412.3 BTU.
4800 btu's, ton = 1200 btu's