Bulk gas temperature in dehumidification Solution

STEP 0: Pre-Calculation Summary
Formula Used
Bulk Gas Temperature = (((Liquid Phase Heat Transfer Coefficient*(Inside Temperature-Liquid layer temperature))-(Enthalpy of Evaporation*Gas Phase Mass Transfer Coefficient*(Absolute Humidity of Air(tg)-Absolute Humidity (ti))))/Gas Phase Heat Transfer Coefficient)+Inside Temperature
Tg = (((h1*(ti-Tl))-(hfg*ky*(Yg-Yi)))/hg)+ti
This formula uses 9 Variables
Variables Used
Bulk Gas Temperature - Bulk gas temperature is adiabatic mixing of the gas from a given cross section of duct will result in some equilibrium temperature that accurately reflects average temperature of the moving fluid.
Liquid Phase Heat Transfer Coefficient - (Measured in Watt per Square Meter per Kelvin) - Liquid Phase Heat Transfer Coefficient is the heat transfer in liquid per unit area in kelvin.
Inside Temperature - (Measured in Kelvin) - Inside Temperature is the temperature of air present inside.
Liquid layer temperature - Liquid layer temperature is defined as the temperature of the flowing liquid layer in dehumidification.
Enthalpy of Evaporation - (Measured in Joule per Kilogram K) - Enthalpy of evaporation is the amount of energy (enthalpy) that must be added to a liquid substance to transform a quantity of that substance into a gas.
Gas Phase Mass Transfer Coefficient - (Measured in Mole per Second Square Meter) - Gas phase mass transfer coefficient is a diffusion rate constant that relates the mass transfer rate, mass transfer area, and concentration change as driving force.
Absolute Humidity of Air(tg) - Absolute Humidity of Air(tg) at the initial air temperature.
Absolute Humidity (ti) - Absolute humidity (ti) is the quality of water vapor in the wet air of unit volume at temperature ti.
Gas Phase Heat Transfer Coefficient - (Measured in Watt per Square Meter per Kelvin) - Gas Phase Heat Transfer Coefficient is the heat transfer in gas per unit area in kelvin.
STEP 1: Convert Input(s) to Base Unit
Liquid Phase Heat Transfer Coefficient: 10.8 Watt per Square Meter per Kelvin --> 10.8 Watt per Square Meter per Kelvin No Conversion Required
Inside Temperature: 353 Kelvin --> 353 Kelvin No Conversion Required
Liquid layer temperature: 20 --> No Conversion Required
Enthalpy of Evaporation: 90 Joule per Kilogram K --> 90 Joule per Kilogram K No Conversion Required
Gas Phase Mass Transfer Coefficient: 90 Mole per Second Square Meter --> 90 Mole per Second Square Meter No Conversion Required
Absolute Humidity of Air(tg): 16 --> No Conversion Required
Absolute Humidity (ti): 50.7 --> No Conversion Required
Gas Phase Heat Transfer Coefficient: 40 Watt per Square Meter per Kelvin --> 40 Watt per Square Meter per Kelvin No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Tg = (((h1*(ti-Tl))-(hfg*ky*(Yg-Yi)))/hg)+ti --> (((10.8*(353-20))-(90*90*(16-50.7)))/40)+353
Evaluating ... ...
Tg = 7469.66
STEP 3: Convert Result to Output's Unit
7469.66 --> No Conversion Required
FINAL ANSWER
7469.66 <-- Bulk Gas Temperature
(Calculation completed in 00.005 seconds)

Credits

Creator Image
Created by Nishan Poojary
Shri Madhwa Vadiraja Institute of Technology and Management (SMVITM), Udupi
Nishan Poojary has created this Calculator and 500+ more calculators!
Verifier Image
Verified by Rajat Vishwakarma
University Institute of Technology RGPV (UIT - RGPV), Bhopal
Rajat Vishwakarma has verified this Calculator and 400+ more calculators!

Humidification Calculators

Gas phase heat transfer coefficient in dehumidification
​ LaTeX ​ Go Gas Phase Heat Transfer Coefficient = ((Liquid Phase Heat Transfer Coefficient*(Inside Temperature-Liquid layer temperature))-(Enthalpy of Evaporation*Gas Phase Mass Transfer Coefficient*(Absolute Humidity of Air(tg)-Absolute Humidity (ti))))/(Bulk Gas Temperature-Inside Temperature)
Liquid layer temperature in dehumidification
​ LaTeX ​ Go Liquid layer temperature = Inside Temperature-(((Gas Phase Heat Transfer Coefficient*(Bulk Gas Temperature-Inside Temperature))+Enthalpy of Evaporation*Gas Phase Mass Transfer Coefficient*(Absolute Humidity of Air(tg)-Absolute Humidity (ti)))/Liquid Phase Heat Transfer Coefficient)
Convective mass transfer coefficient in humidification
​ LaTeX ​ Go Convective Mass Transfer Coefficient = (Convective Heat Transfer Coefficient*(Air Temperature-Wet Bulb Temperature))/(Enthalpy of Evaporation*(Partial Pressure-Partial Pressure in air))
Enthalpy of evaporation for water in humidification
​ LaTeX ​ Go Enthalpy of Evaporation = (Convective Heat Transfer Coefficient*(Air Temperature-Wet Bulb Temperature))/(Convective Mass Transfer Coefficient*(Partial Pressure-Partial Pressure in air))

Bulk gas temperature in dehumidification Formula

​LaTeX ​Go
Bulk Gas Temperature = (((Liquid Phase Heat Transfer Coefficient*(Inside Temperature-Liquid layer temperature))-(Enthalpy of Evaporation*Gas Phase Mass Transfer Coefficient*(Absolute Humidity of Air(tg)-Absolute Humidity (ti))))/Gas Phase Heat Transfer Coefficient)+Inside Temperature
Tg = (((h1*(ti-Tl))-(hfg*ky*(Yg-Yi)))/hg)+ti

What is humidification?

Humidification is the process in which the moisture or water vapor or humidity is added to the air. Common equipment used in this process is a humidifier. Dehumidification as the term suggests, is the opposite of humidification since dehumidification means removing the moisture from the air. Common equipment used in this process is a dehumidifier.
Humidity is the presence of water vapor or moisture in the air, while relative humidity, on the other hand, is the comparison of the actual moisture or water vapor in the air vs. the total water vapor or moisture that the air can handle.

How to Calculate Bulk gas temperature in dehumidification?

Bulk gas temperature in dehumidification calculator uses Bulk Gas Temperature = (((Liquid Phase Heat Transfer Coefficient*(Inside Temperature-Liquid layer temperature))-(Enthalpy of Evaporation*Gas Phase Mass Transfer Coefficient*(Absolute Humidity of Air(tg)-Absolute Humidity (ti))))/Gas Phase Heat Transfer Coefficient)+Inside Temperature to calculate the Bulk Gas Temperature, The Bulk gas temperature in dehumidification formula is defined as the adiabatic mixing of the gas from a given cross section of the duct will result in some equilibrium temperature that accurately reflects the average temperature of the moving fluid. Bulk Gas Temperature is denoted by Tg symbol.

How to calculate Bulk gas temperature in dehumidification using this online calculator? To use this online calculator for Bulk gas temperature in dehumidification, enter Liquid Phase Heat Transfer Coefficient (h1), Inside Temperature (ti), Liquid layer temperature (Tl), Enthalpy of Evaporation (hfg), Gas Phase Mass Transfer Coefficient (ky), Absolute Humidity of Air(tg) (Yg), Absolute Humidity (ti) (Yi) & Gas Phase Heat Transfer Coefficient (hg) and hit the calculate button. Here is how the Bulk gas temperature in dehumidification calculation can be explained with given input values -> 6688.91 = (((10.8*(353-20))-(90*90*(16-50.7)))/40)+353.

FAQ

What is Bulk gas temperature in dehumidification?
The Bulk gas temperature in dehumidification formula is defined as the adiabatic mixing of the gas from a given cross section of the duct will result in some equilibrium temperature that accurately reflects the average temperature of the moving fluid and is represented as Tg = (((h1*(ti-Tl))-(hfg*ky*(Yg-Yi)))/hg)+ti or Bulk Gas Temperature = (((Liquid Phase Heat Transfer Coefficient*(Inside Temperature-Liquid layer temperature))-(Enthalpy of Evaporation*Gas Phase Mass Transfer Coefficient*(Absolute Humidity of Air(tg)-Absolute Humidity (ti))))/Gas Phase Heat Transfer Coefficient)+Inside Temperature. Liquid Phase Heat Transfer Coefficient is the heat transfer in liquid per unit area in kelvin, Inside Temperature is the temperature of air present inside, Liquid layer temperature is defined as the temperature of the flowing liquid layer in dehumidification, Enthalpy of evaporation is the amount of energy (enthalpy) that must be added to a liquid substance to transform a quantity of that substance into a gas, Gas phase mass transfer coefficient is a diffusion rate constant that relates the mass transfer rate, mass transfer area, and concentration change as driving force, Absolute Humidity of Air(tg) at the initial air temperature, Absolute humidity (ti) is the quality of water vapor in the wet air of unit volume at temperature ti & Gas Phase Heat Transfer Coefficient is the heat transfer in gas per unit area in kelvin.
How to calculate Bulk gas temperature in dehumidification?
The Bulk gas temperature in dehumidification formula is defined as the adiabatic mixing of the gas from a given cross section of the duct will result in some equilibrium temperature that accurately reflects the average temperature of the moving fluid is calculated using Bulk Gas Temperature = (((Liquid Phase Heat Transfer Coefficient*(Inside Temperature-Liquid layer temperature))-(Enthalpy of Evaporation*Gas Phase Mass Transfer Coefficient*(Absolute Humidity of Air(tg)-Absolute Humidity (ti))))/Gas Phase Heat Transfer Coefficient)+Inside Temperature. To calculate Bulk gas temperature in dehumidification, you need Liquid Phase Heat Transfer Coefficient (h1), Inside Temperature (ti), Liquid layer temperature (Tl), Enthalpy of Evaporation (hfg), Gas Phase Mass Transfer Coefficient (ky), Absolute Humidity of Air(tg) (Yg), Absolute Humidity (ti) (Yi) & Gas Phase Heat Transfer Coefficient (hg). With our tool, you need to enter the respective value for Liquid Phase Heat Transfer Coefficient, Inside Temperature, Liquid layer temperature, Enthalpy of Evaporation, Gas Phase Mass Transfer Coefficient, Absolute Humidity of Air(tg), Absolute Humidity (ti) & Gas Phase Heat Transfer Coefficient and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!