Thermodynamic analysis and multi objective optimization of kalina and absorption cycle for power and cooling driven by lahendong geothermal source

Kalina cycle is a new concept in thermodynamics that convert heat energy into mechanical energy. The heat source in this system comes from the Lahendong geothermal source. The cycle is using a mixture of solution of two liquids with different boiling points for the working fluid. Water and ammonia a...

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Bibliographic Details
Published in:IOP conference series. Earth and environmental science 2018-01, Vol.105 (1), p.12099
Main Authors: Nasruddin, Monasari, Ratna, Dewantoro, Bagus Rizky, Attharik, Mochammad Ilham, Wibowo, Agung Satrio, Surachman, Arief
Format: Article
Language:English
Subjects:
Ammonia
Boiling points
Cycle ratio
Efficiency
Exergy
Kalina cycle
Optimization
Rankine cycle
Thermodynamic efficiency
Thermodynamics
Working fluids
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Summary:Kalina cycle is a new concept in thermodynamics that convert heat energy into mechanical energy. The heat source in this system comes from the Lahendong geothermal source. The cycle is using a mixture of solution of two liquids with different boiling points for the working fluid. Water and ammonia are the most widely used combinations with a 30% - 70% ratio in this study. With the combined benefits of comparison ratios, the Kalina cycle is able to produce better exergy efficiency and exergoeconomoic compared to conventional Rankine cycle. Kalina cycle works on thermal efficiency around 40% - 60%. The objective of this study is to find optimization in exergy efficiency and exergoeconomoic based on Kalina cycle applied in Lahendong geothermal source used MATLAB-EES. The results showed that the optimal ammonia-water mixture occurred at 130.0626 °C, 2184.791 kPa, and 51.77% of basic solution can yield exergy value 2358.88517 W and use the cost 16994.9715 $/year.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/105/1/012099