tudy of Kalina Cycle System 11 and 34 as Geothermal Power Plants with Brine Temperature of 100â200°C
Indonesia is a country that has an area of 1,910,931 km2 with a population of 255,182,144 in 2010. This causes Indonesia to have high electricity demand, so there must be an increase in power plant capacity. One that can be utilized as a power plant in Indonesia is geothermal energy with a potent...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/43548 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Indonesia is a country that has an area of 1,910,931 km2 with a population of
255,182,144 in 2010. This causes Indonesia to have high electricity demand, so there must
be an increase in power plant capacity. One that can be utilized as a power plant in
Indonesia is geothermal energy with a potential power of 29,544 MW. One of the
solutions to increase efficiency in the use of geothermal energy is Kalina cycle by using a
mixture of ammonia and water. The non-constant boiling temperature of the mixture fluid
can lead to an increase in efficiency.
In this research, optimization process was done in Kalina cycle system 11 and 34
with Cycle Tempo. The optimization process was done by using brine that has
temperature of 100–200°C. The result of optimization was net power per unit mass flow
of brine in each Kalina cycle system at brine temperatur of 100–200°C. The two systems
were then compared to determine which system that can produce the largest net power per
unit mass flow of brine.
Optimization shows that the Kalina cycle system 34 is good at brine temperature of
100–150°C, while the Kalina cycle system 11 is good at brine temperature of 155–200°C.
The Kalina cycle 34 system that use brine temperature of 130-150°C produces dry vapor
condition in ammonia-water solution before entering the separator. This causes a
separator and a heat exchanger can be removed from the system, so that fewer components
are used.
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