gas flow conversion
Amount: 1 Normal cubic metre per hour (Nm³/hr @ 0°C - 32°F) of gas flow
Equals: 0.93 Millions British thermal units (MMBtu/day) in gas energy price
Converting Normal cubic metre per hour to Millions British thermal units value in the gas flow units scale.
TOGGLE : from Millions British thermal units into Normal cubic metres per hour in the other way around.
CONVERT : between other gas flow measuring units - complete list.
Conversion calculator for webmasters.
Gas flow data
A pair of two gas flow units. Used for transporting velocity of natural gas in high and low volume quantities. The MMBtu unit for sales of gas amounts is thoroughly explained on the main gas flows tool page.
Convert gas flow measuring units between Normal cubic metre per hour (Nm³/hr @ 0°C - 32°F) and Millions British thermal units (MMBtu/day) but in the other reverse direction from Millions British thermal units into Normal cubic metres per hour.
|conversion result for gas flow:|
|1 Normal cubic metre per hour||Nm³/hr @ 0°C - 32°F||=||0.93||Millions British thermal units||MMBtu/day|
Converter type: gas flow units
This online gas flow from Nm³/hr @ 0°C - 32°F into MMBtu/day converter is a handy tool not just for certified or experienced professionals.
First unit: Normal cubic metre per hour (Nm³/hr @ 0°C - 32°F) is used for measuring gas flow.
Second: Million British thermal units (MMBtu/day) is unit of gas energy price.
0.93 MMBtu/day is converted to 1 of what?
The Millions British thermal units unit number 0.93 MMBtu/day converts to 1 Nm³/hr @ 0°C - 32°F, one Normal cubic metre per hour. It is the EQUAL gas flow value of 1 Normal cubic metre per hour but in the Millions British thermal units gas energy price unit alternative.
How to convert 2 Normal cubic metres per hour (Nm³/hr @ 0°C - 32°F) into Millions British thermal units (MMBtu/day)? Is there a calculation formula?
First divide the two units variables. Then multiply the result by 2 - for example:
0.931988845836 * 2 (or divide it by / 0.5)
1 Nm³/hr @ 0°C - 32°F = ? MMBtu/day
1 Nm³/hr @ 0°C - 32°F = 0.93 MMBtu/day
Other applications for this gas flow calculator ...
With the above mentioned two-units calculating service it provides, this gas flow converter proved to be useful also as a teaching tool:
1. in practicing Normal cubic metres per hour and Millions British thermal units ( Nm³/hr @ 0°C - 32°F vs. MMBtu/day ) values exchange.
2. for conversion factors training exercises between unit pairs.
3. work with gas flow's values and properties.
International unit symbols for these two gas flow measurements are:
Abbreviation or prefix ( abbr. short brevis ), unit symbol, for Normal cubic metre per hour is:
Nm³/hr @ 0°C - 32°F
Abbreviation or prefix ( abbr. ) brevis - short unit symbol for Million British thermal units is:
One Normal cubic metre per hour of gas flow converted to Million British thermal units equals to 0.93 MMBtu/day
How many Millions British thermal units of gas flow are in 1 Normal cubic metre per hour? The answer is: The change of 1 Nm³/hr @ 0°C - 32°F ( Normal cubic metre per hour ) unit of gas flow measure equals = to 0.93 MMBtu/day ( Million British thermal units ) as the equivalent measure for the same gas flow type.
In principle with any measuring task, switched on professional people always ensure, and their success depends on, they get the most precise conversion results everywhere and every-time. Not only whenever possible, it's always so. Often having only a good idea ( or more ideas ) might not be perfect nor good enough solution. If there is an exact known measure in Nm³/hr @ 0°C - 32°F - Normal cubic metres per hour for gas flow amount, the rule is that the Normal cubic metre per hour number gets converted into MMBtu/day - Millions British thermal units or any other gas flow unit absolutely exactly.
Oven info & galleries
- Home Page
- Oven building CDrom details
- Pizza ovens
- New gallery
- Oven meals
- Vintage forum
- Rectangle shape vs. round igloo
- Building details
- Refractory concrete
- Heat resistant mortar
- Concrete cladding layer
- Thermal insulation
- Saving money & time
- Good thermometer
- Oven building 1
- Building oven 2