flow rate units conversion
Amount: 1 kilogram (water mass) per hour (kg/h) of flow rate
Equals: 0.00000085 Million standard cu-ft in gas per day (MMSCFD at 15°C) in gas flow
Converting kilogram (water mass) per hour to Million standard cu-ft in gas per day value in the flow rate units scale.
TOGGLE : from Million standard cu-ft in gas per day into kilograms (water mass) per hour in the other way around.
CONVERT : between other flow rate measuring units - complete list.
How many Million standard cu-ft in gas per day are in 1 kilogram (water mass) per hour? The answer is: 1 kg/h equals 0.00000085 MMSCFD at 15°C
0.00000085 MMSCFD at 15°C is converted to 1 of what?
The Million standard cu-ft in gas per day unit number 0.00000085 MMSCFD at 15°C converts to 1 kg/h, one kilogram (water mass) per hour. It is the EQUAL flow rate value of 1 kilogram (water mass) per hour but in the Million standard cu-ft in gas per day gas flow unit alternative.
| kg/h/MMSCFD at 15°C flow rate conversion result | ||||
| From | Symbol | Equals | Result | Symbol |
| 1 | kg/h | = | 0.00000085 | MMSCFD at 15°C |
Conversion chart - kilograms (water mass) per hour to Million standard cu-ft in gas per day
1 kilogram (water mass) per hour to Million standard cu-ft in gas per day = 0.00000085 MMSCFD at 15°C
2 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000017 MMSCFD at 15°C
3 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000025 MMSCFD at 15°C
4 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000034 MMSCFD at 15°C
5 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000042 MMSCFD at 15°C
6 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000051 MMSCFD at 15°C
7 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000059 MMSCFD at 15°C
8 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000068 MMSCFD at 15°C
9 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000076 MMSCFD at 15°C
10 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000085 MMSCFD at 15°C
11 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.0000093 MMSCFD at 15°C
12 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.000010 MMSCFD at 15°C
13 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.000011 MMSCFD at 15°C
14 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.000012 MMSCFD at 15°C
15 kilograms (water mass) per hour to Million standard cu-ft in gas per day = 0.000013 MMSCFD at 15°C
Category: main menu • flow rate menu • Kilograms (water mass) per hour
Convert flow rate of kilogram (water mass) per hour (kg/h) and Million standard cu-ft in gas per day (MMSCFD at 15°C) units in reverse from Million standard cu-ft in gas per day into kilograms (water mass) per hour.
Flow rate. Gas & Liquids.
This unit-to-unit calculator is based on conversion for one pair of two flow rate units. For a whole set of multiple units for volume and mass flow on one page, try the Multi-Unit converter tool which has built in all flowing rate unit-variations. Page with flow rate by mass unit pairs exchange.
Converter type: flow rate units
First unit: kilogram (water mass) per hour (kg/h) is used for measuring flow rate.
Second: Million standard cubic feet of gas per day (MMSCFD at 15°C) is unit of gas flow.
QUESTION:
15 kg/h = ? MMSCFD at 15°C
ANSWER:
15 kg/h = 0.000013 MMSCFD at 15°C
Abbreviation, or prefix, for kilogram (water mass) per hour is:
kg/h
Abbreviation for Million standard cubic feet of gas per day is:
MMSCFD at 15°C
Other applications for this flow rate calculator ...
With the above mentioned two-units calculating service it provides, this flow rate converter proved to be useful also as a teaching tool:
1. in practicing kilograms (water mass) per hour and Million standard cu-ft in gas per day ( kg/h vs. MMSCFD at 15°C ) measures exchange.
2. for conversion factors between unit pairs.
3. work with flow rate's values and properties.