ENERGY AND EXERGY ANALYSIS OF DRY-STEAM GEOTHERMAL POWER PLANT IN KAMOJANG

The Government of Indonesia is committed to realize a policy of 35,000 Megawatt (MW) of an additional supply of electricity within 5 years (2014-2019). The projection of this capacity is largely supported by fossil fuel power plants and a small portion of renewable energy. One of the renewable energy which currently has great potential in Indonesia is the geothermal. Therefore, improving the capacity of geothermal is needed to support the policy. The Kamojang is one of the largest geothermal power plant in Indonesia with an installed capacity of 235 MW from 5 generating units. The purposes of this research is to calculate the energy and exergy analysis at Kamojang geothermal power plant. To improve the capacity, exergy analysis can be used by employing the thermodynamic method. In this research, unit 2 of Kamojang's plant is employed. The analysis was examined by using the Engineering Equation Solver (EES) code. The results show the first law of efficiency was calculated at 19.03% and the second law of efficiency at 40.31%.

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Energy and Exergy Analysis of Kizildere Geothermal Power Plant, Turkey

Energy Sources Part A Recovery Utilization and Environmental Effects ◽

10.1080/15567240500400739 ◽

2006 ◽

Vol 28 (15) ◽

pp. 1415-1424 ◽

Cited By ~ 17

Author(s):

Harun Kemal Ozturk ◽

Oner Atalay ◽

Ahmet Yilanci ◽

Arif Hepbasli

Keyword(s):

Power Plant ◽

Exergy Analysis ◽

Geothermal Power Plant ◽

Energy And Exergy ◽

Energy And Exergy Analysis ◽

Geothermal Power

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Energy and Exergy Analysis of Mount Salak Geothermal Power Plant Unit 1-2-3

International Journal of Technology ◽

10.14716/ijtech.v8i7.740 ◽

2017 ◽

Vol 8 (7) ◽

pp. 1217

Author(s):

BAKHRUL ULUM ◽

Nurrohman Nurrohman ◽

Ervan Ambarita ◽

Yogi Sirodz Gaos

Keyword(s):

Power Plant ◽

Exergy Analysis ◽

Geothermal Power Plant ◽

Energy And Exergy ◽

Energy And Exergy Analysis ◽

Geothermal Power

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Energy and Exergy Analysis of Dieng Geothermal Power Plant

International Journal of Technology ◽

10.14716/ijtech.v12i1.4218 ◽

2021 ◽

Vol 12 (1) ◽

pp. 175

Author(s):

Alfian Hardi Qurrahman ◽

Wahyu Wilopo ◽

Sigit Ponco Susanto ◽

Himawan Tri Bayu Murti Petrus

Keyword(s):

Power Plant ◽

Exergy Analysis ◽

Geothermal Power Plant ◽

Energy And Exergy ◽

Energy And Exergy Analysis ◽

Geothermal Power

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Energy and Exergy Analysis of a Coal Fired Boiler of 250MW Thermal Power Plant

International Journal for Research in Applied Science and Engineering Technology ◽

10.22214/ijraset.2018.1235 ◽

2018 ◽

Vol 6 (1) ◽

pp. 1534-1544

Author(s):

S. S. L. Patel

Keyword(s):

Power Plant ◽

Thermal Power Plant ◽

Exergy Analysis ◽

Thermal Power ◽

Energy And Exergy ◽

Energy And Exergy Analysis

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Exergy Analysis and Exergoeconomic Optimization with Multiobjective Method of Unit 4 Kamojang Geothermal Power Plant

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.819.523 ◽

2016 ◽

Vol 819 ◽

pp. 523-529 ◽

Cited By ~ 1

Author(s):

Nasruddin ◽

Septian Khairul Masdi ◽

Arief Surachman

Keyword(s):

Power Plant ◽

Exergy Analysis ◽

Exergy Efficiency ◽

Economic Optimization ◽

Efficiency Optimization ◽

Geothermal Power Plant ◽

System Cost ◽

Wellhead Pressure ◽

Geothermal Power ◽

Valve Pressure

This study presents four analysis at unit 4 Kamojang geothermal power plant are exergy analysis at current condition, exergy efficiency optimization, economic optimization, and exergoeconomic optimization with wellhead valve pressure as a variable. Calculations are conducted by using the MATLAB. Thermodynamics characteristic of geothermal fluid assumed as water characteristic which get from REFPROP. Wellhead pressure operational condition 10 bar has exergy efficiency 31.91%. Exergy efficiency optimization has wellhead valve pressure 5.06 bar, exergy efficiency 47.3%, and system cost US$ 3,957,100. Economic optimization has well pressure 11 bar, exergy efficiency 22.13%, and system cost US$ 2,242,200. Exergoeconomic optimization has 15 optimum condition. Exergoeconomic optimization aims to analyze the optimum wellhead valve pressure for maximum exergy efficiency and minimum cost of power plant system.

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Energy and Exergy Analysis for 300MW Thermal System of Xiaolongtan Power Plant

2011 International Conference on Computer Distributed Control and Intelligent Environmental Monitoring ◽

10.1109/cdciem.2011.180 ◽

2011 ◽

Cited By ~ 5

Author(s):

Lv Guoqiang ◽

Wang Hua ◽

Ma Wenhui ◽

Yu Chunwei

Keyword(s):

Power Plant ◽

Exergy Analysis ◽

Thermal System ◽

Energy And Exergy ◽

Energy And Exergy Analysis

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Multi-Point Energy and Exergy Analysis of a 1.5 MWe Hybrid SOFC-GT Power Plant

Volume 1: Advanced Energy Systems, Advanced Materials, Aerospace, Automation and Robotics, Noise Control and Acoustics, and Systems Engineering ◽

10.1115/esda2006-95702 ◽

2006 ◽

Cited By ~ 1

Author(s):

Francesco Calise ◽

Massimo Dentice d’Accadia ◽

Laura Vanoli ◽

Michael R. von Spakovsky

Keyword(s):

Power Plant ◽

Mass Flow ◽

Heat Exchangers ◽

Exergy Analysis ◽

Pressure Ratio ◽

Point Energy ◽

Internal Reforming ◽

Partial Load ◽

Energy And Exergy ◽

Energy And Exergy Analysis

This paper presents a multi-point energy and exergy analysis of a hybrid SOFC–GT power plant. The plant layout consists of the following principal components: an internal reforming SOFC, a steam-methane pre-reformer, a catalytic burner, a radial gas turbine, a centrifugal air compressor, a centrifugal fuel compressor, plate-fin heat exchangers, counter-flow shell and tube heat exchangers, and mixers. The partial load performance of the centrifugal compressors and radial turbine is determined using maps, properly scaled in order to match required mass flow rate and pressure ratio values. The plant is simulated on the basis of a zero-dimensional model discussed in previous papers. Two different partialization strategies are introduced in order to assess the partial load behavior of the plant. Results show that the plant achieves the best partial load performance for the case when both air and fuel mass flow rates are simultaneously reduced.

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Energy and Exergy Analysis of Steam Power Plant 3rd Unit PT PLN (PERSERO) Centre Unit Generation Tanjung Jati B Use BFP-T Modification Cycle

E3S Web of Conferences ◽

10.1051/e3sconf/201912513003 ◽

2019 ◽

Vol 125 ◽

pp. 13003

Author(s):

MSK. Tony Suryo U ◽

Eflita Yohana ◽

Syarif Dwi Priyanto ◽

Ignatius Apryando M. ◽

Tauviqirrahman

Keyword(s):

Power Plant ◽

Exergy Analysis ◽

Energetic Efficiency ◽

Exergetic Efficiency ◽

Steam Power ◽

Steam Power Plant ◽

Operation Process ◽

Energy And Exergy ◽

Energy And Exergy Analysis ◽

Long Operation

Steam power plant Generation of Tanjung Jati B 3rd unit has a capacity of 660 MW. The power plant operational in 2011, because of the long operation process, there will be a decrease in performance. The plant needs to be researched to analyze the performance and losses that occurs in the power plant. Because this also affects the environment if the efficiency of the power plant is high, it can reduce the use of coal. Because coal becomes air pollution and environmental pollution, which can cause acid rain, water pollution, and global warming. This research is used to analyze energy and exergy on the components of a steam power plant. From the results of this research, the largest of destruction exergy boiler is 881.08 MW and the exergetic efficiency is 48.66%. While the rate of the smallest destruction exergy in LPH 3 is 0.6 MW and the exergetic efficiency is 94.45%. The contribution of the largest Losses energy in the boiler is 231 MW and energetic efficiency is 87.05%. While the contribution of the smallest energy Losses in HPH 6 is 0.74 MW and energetic efficiency is 99.23%.

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