A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Evaluation on Enactment Development of Split Air-Conditioning System By Loop Heat Pipe
The effort was conducted to observe the effects of incorporation of LoopHeat Pipes on energy consumption and dehumidification in a split AirConditioning system. In this examination, three Loop Heat Pipe unitswere fabricated and filled with methanol as operational middle andcollective with the cooling coil of a split air conditioning system. Underthe normal design indoor temperature range of 22–260C and 50% RH,when three number of Loop Heat Pipes units are incorporated in theair conditioning unit, varying air flow rate endless, the improvementin Coefficient of Performance (COP). Also found that the ApparatusDew Point (ADP) dips, the supply air Dry Bulb Temperature (DBT) alsoincreased and the dehumidification capability of the air conditioningsystem improved. The examination infers that the Loop Heat Pipe unitsengaged in the split air conditioning system not only considerablydiminutions the energy prerequisite and can improve the moistureelimination capability of the air conditioning systemA Loop Heat Pipe (LHP) of Copper Material is verified on air-conditioningsystem. The investigational setup is fixed in one fastened room whoseEnergy Consumption is designed by operating 2 Hr. Afterward that theone Loop Heat Pipe is involved to the indoor unit and the similar EnergyConsumption is Intended. The Above Process the Carried out for One,Two and Three loops (LHP). The working Fluid For the directly aboveresearch is pentane. From the Above Experiment We will get the COPof Refrigeration System will be rise and the Dry Bulb Temperature ofthe Supply air also get intensifications so complete the Load in indoorunit get diminishes.
Evaluation on Enactment Development of Split Air-Conditioning System By Loop Heat Pipe
The effort was conducted to observe the effects of incorporation of LoopHeat Pipes on energy consumption and dehumidification in a split AirConditioning system. In this examination, three Loop Heat Pipe unitswere fabricated and filled with methanol as operational middle andcollective with the cooling coil of a split air conditioning system. Underthe normal design indoor temperature range of 22–260C and 50% RH,when three number of Loop Heat Pipes units are incorporated in theair conditioning unit, varying air flow rate endless, the improvementin Coefficient of Performance (COP). Also found that the ApparatusDew Point (ADP) dips, the supply air Dry Bulb Temperature (DBT) alsoincreased and the dehumidification capability of the air conditioningsystem improved. The examination infers that the Loop Heat Pipe unitsengaged in the split air conditioning system not only considerablydiminutions the energy prerequisite and can improve the moistureelimination capability of the air conditioning systemA Loop Heat Pipe (LHP) of Copper Material is verified on air-conditioningsystem. The investigational setup is fixed in one fastened room whoseEnergy Consumption is designed by operating 2 Hr. Afterward that theone Loop Heat Pipe is involved to the indoor unit and the similar EnergyConsumption is Intended. The Above Process the Carried out for One,Two and Three loops (LHP). The working Fluid For the directly aboveresearch is pentane. From the Above Experiment We will get the COPof Refrigeration System will be rise and the Dry Bulb Temperature ofthe Supply air also get intensifications so complete the Load in indoorunit get diminishes.
Evaluation on Enactment Development of Split Air-Conditioning System By Loop Heat Pipe
Bachhav Vishal Manik (author) / Nilesh C Ghuge (author)
2020-05-24
Journal of Advanced Research in Modeling and Simulation; Vol. 2 No. 1 (2020): Journal of Advanced Research in Modeling and Simulation; 23-29
Article (Journal)
Electronic Resource
English
DDC:
690
| British Library Online Contents | 2000
AAPA Supports Enactment of Water Resources Development Acts
Online Contents | 1995
Development of biporous Ti3AlC2 ceramic wicks for loop heat pipe
| British Library Online Contents | 2013