STUDY OF AIR CONDITIONING SYSTEM WITH THERMAL ENERGY STORAGE FOR HIGH RISE BUILDING
Jakarta has many high rise buildings, operating 365 days per year. About 60% of the total building operating cost is the energy cost for air conditioning system of the building. Indonesia Electric Company determines two tariff types, peak hour load tariff and off-peak hour load tariff. Peak hour...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/39227 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Jakarta has many high rise buildings, operating 365 days per year. About
60% of the total building operating cost is the energy cost for air conditioning
system of the building. Indonesia Electric Company determines two tariff types,
peak hour load tariff and off-peak hour load tariff. Peak hour tariff is twice the
off-peak hour tariff and implies on the increasing of the building operating cost as
well as forcing the building management to find solutions for this issue.
Thermal Energy Storage is one of inexpensive solutions that could be used
to reduce building operating costs. Thermal Energy Storage is a tool for
supporting energy management method on reduction of the air conditioning
operating costs, especially during the peak hour.
This research concerns on air conditioning systems design of two under
development high-rise buildings located in Jakarta, including cooling load
estimation and choosing the proper equipments for those buildings based on life
cycle cost evaluation. For each building, three alternative systems of air
conditioning system had been proposed, such as Split air conditioning system,
central air conditioning system using water cooled chiller, and central air
conditioning system using water cooled chiller with thermal energy storage
(TES). The life cycle of each proposed equipment is assumed as 10 and 15 years
in this research.
According to the analysis result of this study, the peak cooling load for
Tower A is 1083.62 TR while the for Tower B is 931.85 TR. Based on the life
cycle cost evaluation method, both for 10 and 15 years of equipment life cycle,
the most economical air conditioning system for Tower A and B is central air
conditioning system using water cooled chiller with thermal energy storage
(TES). According to the analysis, the application of combined TES and water
cooled chiller on central air conditioning system in comparison to the other two
proposed alternatives could save air conditioning system energy cost up to 100
million IDR per year. |
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