1 watt is equal to 3600 Quick conversion chart of N/m3 to kg/m3 1 N/m3 to kg/m3 = 0.10197 kg/m3 5 N/m3 to kg/m3 = 0.50986 kg/m3 10 N/m3 Both ft 3 and m 3 are units to measure the volume of the gas. I've done my best to build this site for you- Please send feedback to let me know how you enjoyed visiting. Web1 milliliter/hour [mL/h] = 2.7777777777778E-10 cubic meter/second [m^3/s] milliliter/hour to cubic meter/second, cubic meter/second to milliliter/hour. Flow - Mass Converter gas at standard conditions (0C at 1 atm). At STP 1 kgmol=23.645 Sm3 and not 22.414 which is the molal volume at normal conditions. WebType in your own numbers in the form to convert the units! Type in your own numbers in the form to convert the units! MMSCFD - Million standard cubic feet of gas per day - a common volume of gas measure (unit abbreviation MMscf) SCFD - Standard cubic feet per day (gas) SCFM - Standard cubic feet per minute (gas) Sm^3/hr - Standard cubic metre per hour defined at 15 deg. Normal cubic meters (Nmh) and cubic meters (m3h) - MECAFLUX The wording outcome on your site will appear as: Converter of gas flow units. Conversion How many N/m3 in 1 kg/m3? 1 watt is equal to 3600 newton meter per hour, or 367.09783667205 kg-m/hr. The answer is 9.8066500286389. WebMore information from the unit converter. Copyright 1998-2023 engineering.com, Inc. All rights reserved.Unauthorized reproduction or linking forbidden without expressed written permission. The answer is 9.80665. We assume you are converting between newton meter/hour and kilogram-force meter/hour . It is a colorless, odorless and tasteless gas and is flammable and nontoxic at atmospheric temperatures and pressures. Flow Converter Conversions for each point are documented in the Conversion Factors table. hr Welcome to the OnlineConversion.com forums. One important point is to define "normal condition". Now, using the equation PV=nRT for the both states, knowing that the P, n and R remains constant the equation can be written as follows: Assuming condition 1 is at standard conditions (15C, 288.15K), and condition 2 is at normal conditions (0C, 273.15K), the gas volume based flow rate can be converted as follows: 165.18 = V2 x (288.15 / 273.15) V2 = 156.58 nm3/hr (gives great nm3/h which is less < than the sm3/h). CheCalc & Gas Volume Conversion

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