SIMULATION OF PSYCHROMETRIC CHAMBER FOR RESIDENTIAL AIR CONDITIONER
The usage of air conditioner in Indonesia is increasing anually. As a result, national electricity consumption rises because the electric consumption of air conditioner is high. To optimize the usage of electricity, Indonesian Ministry of Energy and Mineral Resources established standard energy e...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/50408 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The usage of air conditioner in Indonesia is increasing anually. As a result,
national electricity consumption rises because the electric consumption of air conditioner
is high. To optimize the usage of electricity, Indonesian Ministry of Energy and Mineral
Resources established standard energy efficient of air conditioner that regulated in
Indonesian Ministry of Energy and Mineral Resources Regulation No. 57 of 2017.
However, the numbers of psychrometric chamber which is used as testing facility is too
few. Therefore, simulation of pyschrometric chamber is needed to eximine the design of
psychrometric chamber.
The purpose of this simulation is to obtain the prediction of psychrometric
chamber’s characteristic and its duration to attain standard operation based on ISO 5151.
Variation of parameters are simulated to observe effect of changes in conductivity, width
of insulation and surrounding temperature toward power of compressor and heater to
maintain desired conditions. Psychrometric chamber is modeled by mass balance and
energy balance equations in transient state. This simulation is done by using Simulink.
Operation condition based on ISO 5151 is achieved in 33 minutes, indoor TDB
and TWB are 26.8 oC and 19.3 oC while outdoor TDB and TWB are 34.9 oC and 24.0 oC.
Decreasing 1 cm of width of insulation resulting addition power of indoor compressor and
outdoor heater of 2.46 W (0.05%) and 12.69 W (0.29%). Increasing 0.0062 W/m.K of
thermal conductivity resulting addition power of indoor compressor and outdoor heater of
2.22 W (0.05%) and 11.42 W (0.27%). Increasing 2 oC of surrounding temperature
resulting addition indoor compressor power of 19.5 W (0.44%) while reduction outdoor
heater power of 45.53 W (1.07%).
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