ANALISIS PENGARUH KEVAKUMAN KONDENSOR TERHADAP LAJU PERPINDAHAN PANAS DAN EFEKTIVITAS KONDENSOR PLTGU BLOK 3 MUARA KARANG

ANANTA, NOVENDRARIZAL DENNY (2023) ANALISIS PENGARUH KEVAKUMAN KONDENSOR TERHADAP LAJU PERPINDAHAN PANAS DAN EFEKTIVITAS KONDENSOR PLTGU BLOK 3 MUARA KARANG. S1 thesis, Universitas Mercu Buana Jakarta.

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Abstract

The condenser is the main component in the PLTGU cycle which is the biggest cause of losses in the cycle and can affect the effectiveness of a generator. The spent steam from the turbine enters the condenser, then undergoes a condensation process and then a phase change occurs from water vapor to water (condensate water). Condensate water will be reused as boiler fill water. With the role of the condenser very important in a cycle, it is necessary to analyze the effect of vacuum pressure on the rate of heat transfer and the effectiveness of the condenser. Calculation methods to calculate heat transfer rate and effectiveness are Log Mean Temperature Different (LMTD) and Effectiveness – Number of Transfer Unit (NTU). From the analysis results, the highest condenser effectiveness value was 99.34% at a vacuum pressure of 0.062 bar (absolute) and the highest heat transfer rate was 198 MW, while at a vacuum pressure of 0.069 bar (absolute) the lowest effectiveness value was 99.32%. and get the lowest heat transfer rate value of 134 MW. With the high vacuum pressure in the condenser, it will affect the instability of the condenser performance which in turn causes the heat transfer process to not be ideal. Keywords: Condenser Vacuum, Condenser Efficiency, Condenser Heat Transfer Rate Kondensor adalah komponen utama pada siklus PLTGU yang menjadi penyebab terbesar terjadinya losses pada siklus dan dapat mempengaruhi efektivitas suatu pembangkit. Uap bekas dari turbin masuk ke kondensor, kemudian mengalami proses kondensasi lalu terjadi perubahan fasa dari uap air menjadi air (air kondensat). Air kondensat akan digunakan kembali sebagai air pengisi boiler. Dengan peran kondensor sangat penting dalam suatu siklus, maka perlu dilakukan analisis pengaruh tekanan vakum terhadap laju perpindahan panas dan efektivitas kondensor. Metode perhitungan untuk menghitung laju perpindahan panas dan efektivitas adalah Log Mean Temperature Different (LMTD) dan Effectiveness – Number of Transfer Unit (NTU). Dari hasil analisis didapatkan nilai efektivitas kondensor tertinggi sebesar 99,34% pada tekanan vakum 0,062 bar(absolute) dan mendapatkan nilai laju perpindahan panas tertinggi sebesar 198 MW, sedangkan pada tekanan vakum 0,069 bar(absolute) mendapatkan nilai efektivitas terendah sebesar 99,32% dan mendapatkan nilai laju perpindahan panas terendah sebesar 134 MW. Dengan tingginya tekanan vakum pada kondensor maka akan mempengaruhi ketidakstabilan kinerja kondensor yang pada akhirnya menyebabkan proses perpindahan panas tidak ideal. Kata Kunci: Vakum Kondensor, Efektivitas Kondensor, Laju Perpindahan Panas Kondensor

Item Type:	Thesis (S1)
Call Number CD:	FT/MSN. 23 026
NIM/NIDN Creators:	41318110033
Uncontrolled Keywords:	Vakum Kondensor, Efektivitas Kondensor, Laju Perpindahan Panas Kondensor
Subjects:	100 Philosophy and Psychology/Filsafat dan Psikologi > 150 Psychology/Psikologi > 154 Subconscious and Altered States and Process/Psikologi Bawah Sadar > 154.6 Sleep Phenomena/Fenomena Tidur > 154.63 Dreams/Mimpi > 154.634 Analysis/Analisis 600 Technology/Teknologi > 620 Engineering and Applied Operations/Ilmu Teknik dan operasi Terapan 600 Technology/Teknologi > 620 Engineering and Applied Operations/Ilmu Teknik dan operasi Terapan > 621 Applied Physics/Fisika terapan 600 Technology/Teknologi > 620 Engineering and Applied Operations/Ilmu Teknik dan operasi Terapan > 621 Applied Physics/Fisika terapan > 621.8 Machine Engineering, Machinery/Teknik Mesin
Divisions:	Fakultas Teknik > Teknik Mesin
Depositing User:	ADELINA HASNA SETIAWATI
Date Deposited:	04 Apr 2023 06:23
Last Modified:	04 Apr 2023 06:23
URI:	http://repository.mercubuana.ac.id/id/eprint/76045

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