ANALISIS PERFORMANCE COOLING TOWER TIPE INDUCED DRAFT COUNTER FLOW PLTP KAMOJANG UNIT 5

Hasan Abdurohman, Juli Mrihardjono, Seno Darmanto

Abstract


Cooling tower is a heat exchanger used to cool water from the condenser. The process is carried out by contacting water with air directly and discharged into the atmosphere using air fluid that is flowed naturally or flowed by a fan. Cooling tower type used in PLTP Kamojang Unit 5 is Induced draft Counter Flow. This equipment more important in increasing turbine efficiency, therefore special treatment is needed by knowing and observing the performance of the Cooling tower so that it can be analyzed in actual conditions and make decision steps in carrying out further repairs and maintenance, this is the basis of research that will be carried out by looking for value and the Cooling tower performance trendline. The calculation method uses the standard ASME PTC 23-2003 and CTI ATC-105 where the results are the calculation baseline and the historical trendline of Cooling tower performance based on the parameters of the 3-cell Cooling tower operating conditions. The parameters tested are by taking 5 valid data on PLTP KMJ Unit 5, then the Tower Capability performance values are obtained as follows, namely in the initial commissioning conditions the performance value is 92,1%, Q1 2021 is 78,8%, Q3 2021 is 74, 3%, Q4 2021 is 84,7%, and Q1 2022 is 83,8%. There was a decrease in Q3 2021. Then there was an increase in the trend in Q4 2021 due to previous overhaul activities on the Cooling tower.

Keywords: Cooling tower, trendline, overhaul, tower capability


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References


Agus Sentana, DS and Taufik A. Hadianata. (2005). sistem operasi dan analisis menara pendingin (Cooling tower) pltp kamojang. Bandung: Universitas Pasundan

American Society of Mechanical Engineers. (2003). Atmospheric Water Cooling Equipment. Three Park Avenue, New York: ASME International.

Cooling Technology Institute. (2019). CTI ATC-105 “Acceptance Test Code for Water Cooling tower.” Cooling Technology Institute.

Damaputra, M. K., Rachmat, A., & koswara, E. (2019). PROSES PENDINGINAN DAN PERBANDINGAN EFISIENSI COOLING TOWER UNIT 3. Jurusan Teknik Mesin, Fakultas Teknik, Universitas Majalengka.

El Wakil, M.M., (1984), Powerplant Technology, McGraw Hill International, Singapore.

Fauzi, Danial Ahmad., Rudiyanto, Bayu. Analisa Performa Menara Pendingin Pada PT Geo Dipa Energi Unit Dieng. Jurnal Ilmiah Rotari, Vol 1 Agustus 2016.

Handoyo, Yoppy. Analisis Perfoma Cooling Tiwer LCT 400 pada PT XYZ Tambun Bekasi. Jurnal Ilmiah Teknik Mesin, Vol.3 Februari 2015

Hewitt, G.F. G.L Shires. T.R. Bott. 2000. Process Heat Transfer. United States of America: Begell House, Inc.

Melkias, A. A. (2020). Analisa Performa Pada Cooling tower Tipe Mechanical Draft Crossflow. Jurusan Teknik Konversi Energi, Politeknik Negeri Bandung.

Muhsin, Ahmad., Pratama Zicko. Analisis Efektivitas Mesin Cooling tower Menggunakan Range and Approach. Jurnal OPSI Vol II No.2 Desember 2018.

PT Pertamina Geothermal Energy, 2015. EPCC Panasbumi Unit 5 1 x 35MW.

PT Pertamina Geothermal Energy, 2015. Manual Book PLTP Unit 5 1 x 35MW.

Purbianto, A., & Adji, B. S. (2021). ANALISIS PERFORMA MAIN COOLING WATER PUMP PLTP PT.X. Fakultas Teknik dan Informatika, Program Studi Teknik Mesin, Universitas Dian Nusantara, Jakarta, Indonesia.

Saptadji, N. M. (2003). Teknik Panas Bumi. Fakultas Ilmu Kebumian dan Teknologi Mineral: Institut Teknologi Bandung.

Wuryanti, Sri. 2020. Peningkatan Efektivitas Cooling tower dengan Metode Air High Speed. Bandung: Politeknik Negeri Bandung




DOI: https://doi.org/10.35308/jmkn.v8i2.6526

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