# How can MBH be converted to BTU?

MBH can be converted to BTU by multiplying by 1,000. MBH is equivalent to 1,000 BTUs/hour, according to a conversion table provided by UNC Chapel Hill. BTU stands for British Thermal Units.

BTU is often used in the heating and housing industry to describe rates of heating and cooling when using natural gas. One BTU represents the amount of energy needed to raise 1 pound of water by 1 degree Fahrenheit. One MBH is equivalent to approximately 0.293071 kilowatts.

Some common household appliances and their average energy usage rates are:

• A two-tier roasting oven: 51 MBH = 51,000 BTU/hour
• Double oven range: 390 MBH = 390,000 BTU/hour
• Clothes dryer: 35 MBH = 35,000 BTU/hour
• Washing machine: 20 MBH = 20,000 BTU/hour
• Gas log fireplace: 80 MBH = 80,000 BTU/hour
• 50-gallon water heater: 50 MBH = 50,000 BTU/hour

Reference:
Q&A Related to "How can MBH be converted to BTU?"
 MBH does not convert directly to BTU. MBH is 1,000 BTU/hr. http://wiki.answers.com/Q/How_do_you_convert_MBH_t...
 1. Multiply the number of MBHs by 293,071. This will give you the approximate number of watts. As an example, if you were converting 5 MBHs to watts, you would arrive at 1,465,355 http://www.ehow.com/how_8694207_convert-mbh-metric...
 To convert btu or British Thermal Units to cfm or cubic feet/minute you http://www.chacha.com/question/what-are-the-steps-...
 Btu(British thermal unit) is a measure of energy while kw is a measure of power.Use the following for conversion. 1 Btu/hour [I.T.] = 0.000 293 071 kilowatt 1 Btu/minute [I.T.] = http://uk.answers.yahoo.com/question/index?qid=200...
Top Related Searches
Explore this Topic
The formula used to convert watts to BTU's is P (BTU/hr) = 3.412142 ¢ P (W) therefore 1W = 3.412142 BTU/hr. BTU/hr represents the energy per hour of the equipment ...
In order to convert 5852 CFH to BTUs, you need to use a certain formula. One CF is equal to 1000 BTUs. You can use cross multiplication in order to convert other ...
To convert Btu per hour to CFM per minute, take the energy transfer rate in Btu and divide it by 100,000. Multiply the result by 96.7. Divide that result by 60 ...