MMSCFD to LB per HR
1909.8
HR
LB
520 R
1
1545.33FT - LB
LB R
24HR
DAY
LB
(.6 29)LB
MMSCF
1,000,000SCF
DAY
1.0MMSCF
FT
144IN
IN
14.7LB
HR
LB
O
O
MOL
MOL
2
2
2
=
×
−
× ×
×
= × × × ×
This equation shows the conversion from MMSCFD to LB per HOUR.
31,750 lb/hr = MMSCFD
32,170 lb/hr = MMSCFD
yes
2616.36
You need to look at a steam table first then Multiply lbs/hr steam x latent heat of evaporation in BTU/lb @ the operating pressure.
Divided speed by 4, then add 2I.E 40km is 12m a sec
11 per hour for 40 hours is 11*40 = 440 for the 40 hour week.
154 mph is equal to 247.839 km/hr. 1 mph = 1.60934 km/hr.
11.25 miles per hour ============= Solution Method: ----------------- There are 60 minutes in 1 hour. We often say there are 60 minutes per hour. We express this relationship mathematically as: 60 min/hr To convert miles/min to miles/hr, do the following: 1.5 miles/8 min * 60 min/1 hr = 1.5 * 60 / 8 = 11.25 miles/hr (average speed) * Note: minutes cancel in the numerator & denominator). ---------------- Original answer: Just over 12 miles per hour.
88.7 km/h
73.33 feet per second.
The momentum is the mass times the velocity, or 6000 pounds*mi/hr. Normally, you would use SI units, which means you would convert 200 lb to newtons, and 30 mi/hr to meters per second.
(66 km/sec) x (3,600 sec/hr) = 237,600 km/hr
There are 0.621 miles per kilometer, so to convert, one uses the following formula: miles = 0.621 * kilometers For example, if one travels 100 miles, they will have travelled: 0.621 * 100 = 62.1 miles. Algebraic Steps / Dimensional Analysis Formula____ mi/hr*5280 ft/hr 1 mi/hr*1 m/hr 3.2808 ft/hr*1 km/hr 1000 m/hr=? km/hr Direct Conversion Formula ____ mi/hr*1.609344 km/hr 1 mi/hr=? km/hr
Approx 3.51 cu ft per hour.
104,6 km/h
You need to look at a steam table first then Multiply lbs/hr steam x latent heat of evaporation in BTU/lb @ the operating pressure.
You cannot convert kilograms per hour (kg/hr) into nanometers cubed per hour (nm3/hr). The kilogram is a measure of mass or weight while the cubic nanometer is a measure of volume. There is no direct conversion, unless you specify the density of the material involved.
You need to know the denisty measured in kg/m3. Then just divide kg/hr by the density to get m3/hr.
(Qkm/hr) x (1,000 m/km) x (1 hr/60 min) = 162/3Q meter/minute
Divided speed by 4, then add 2I.E 40km is 12m a sec