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"Telah banyak penelitian dilakukan pada peralatan sistem pendinginan dengan tujuan mengurangi konsumsi energi, biaya perawatan dan biaya operasi. Chiller bebas minyak menggunakan kompresor dengan bantalan magnetik sebagai pengganti minyak pelumas dalam mengurangi kerugian dari gesekan. Kompresor dengan bantalan magnetik yang dibantu dengan pengatur kecepatan mampu bekerja lebih efisien dari kompresor pada umumnya. Dalam merancang sistem pendingin udara hemat energi, pemilihan sistem air dingin pada evaporator dan sistem air pada kondensor yang tepat adalah hal yang penting. Kondensor berfungsi untuk menolak panas dari chiller ke lingkungan, jumlah panas yang ditolak ke lingkungan bergantung pada lokasi menara pendingin, jenis pompa, sistem pemipaan, kualitas air dan sebagainya. Tujuan dari penelitian ini adalah untuk menganalisis sistem kondenser dan evaporator chiller di salah satu pusat perbelanjaan di Indonesia dan pengaruhnya pada kinerja chiller bebas minyak. Dari penghitungan diperoleh nilai NPSH available yang terhitung adalah -4.49 m yang lebih kecil nilai NPSH required adalah 5.6 m. Nilai NPSH yang kurang dapat menyebabkan kavitasi dan kerusakan pompa dan pipa. Selain itu, hal ini juga dapat menjadi penyebab menara pendingin di zona B bekerja dibawah spesifikasi 0.077 kW

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Researchers have been conducting a lot of researches on cooling equipment in order to reduce their energy consumption, maintenance cost and operation cost. Oil-free chiller uses magnetic bearing compressor instead of lubricant to avoid friction loss from the bearing. In comparison of standard oil compressor, the motor with magnetic bearing with the help of Variable Speed Drive (VSD)  can run more efficiently at partial loads. In designing energy-efficient system air conditioning system it is important to not only choose a proper chilled water system but also condenser water system. The condenser rejects the heat from the chiller to the environment, the amount of heat rejected is depends on the style and location of the cooling tower, pump type, piping system, condenser water quality, etc. This research’s purpose is to analyse the current condenser system in one of shopping mall in Depok and how it effects the performance of the oil-free chiller. According to the calculation, NPSHa value is -4.49 m which is less than NPSHr. The lack in NPSHa value can cause cavitaton and damage to the pumps and pipes.  Moreover, this can be the reason why the cooling tower in Zone B run under the specification of 0.077 kW/Ton cooling tower."

"[ABSTRAKSistem air pendingin merupakan sistem resirkulasi terbuka yang berfungsi untuk mendinginkan air yang berasal dari proses suatu industri. Salah satu permasalahan yang timbul pada sistem air pendingin resirkulasi terbuka adalah pertumbuhan mikroba. Untuk mengendalikan pertumbuhan mikrobia pada sistem pendinginditambahkan isothiazoline biocide dan dilakukan pemantauan terhadappertumbuhan mikroba pada air dalam sistem pendingin. Dari hasil pengamatan dapat dilihat pertumbuhan mikroorganisme akan semakin cepat sehubungan dengan lama waktu terutama apabila menara pendingin berada dalam kondisi diam (stagnan). Pertumbuhan mikroba ini dapat menyebabkan terjadi korosi pada sistem menara pendingin. Untuk mencegah proses korosi akibat mikroba ini, maka dilakukan inhibisi dengan menggunakan inhibitor phosphoric acid. Hasilpengamatan menunjukkan bahwa konsentrasi optimum 100 ppm inhibitor phosphoric acid dengan penambahan 100 ppm isothiazoline biocide untuk menurunkan laju pertumbuhan mikroba. Kemampuan inhibisi korosi diinvestigasi melalui simulasi pengujian korosi yang terjadi pada sampel kupon yang direndam dalam kurun waktu tertentu dengan menggunakan air sistem menara pendingin. Pengujian ini dievaluasi dengan metode pengujian Tafel Polarisasi dan Electrochemical Impedance Spectroscopy (EIS).

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ABSTRACTCooling water system is an open recirculation system which serves to cool water from anindustrial process. One of the problems that arise in open recirculating cooling water systems is the growth of microbial. To control the growth of microbial in the cooling system added isothiazoline biocide chemicals and monitoring the growth of microbial in the water in the cooling system. From the observation can be seen to be the faster growth of microbial in relation to the length of time, especially if the cooling tower is at rest (stagnant). The growth of these microbial can cause corrosion in cooling water systems. To prevent the formation of corrosion due to these microbial, the inhibition is done by using the phosphoric acid inhibitor. The results showed that the optimum concentration of 100 ppm phosphoric acid inhibitor with the addition of 100 ppm isothiazoline biocide to reduce the rate of growth of microbial. Corrosion inhibition ability investigated through the simulation testing of corrosion that occurs on the coupon samples were immersed in a certain period of time by using water cooling tower systems. This test was evaluated by Tafel polarization test methods and Electrochemical Impedance Spectroscopy (EIS).;Cooling water system is an open recirculation system which serves to cool water from anindustrial process. One of the problems that arise in open recirculating cooling watersystems is the growth of microbial. To control the growth of microbial in the coolingsystem added isothiazoline biocide chemicals and monitoring the growth of microbial inthe water in the cooling system. From the observation can be seen to be the faster growthof microbial in relation to the length of time, especially if the cooling tower is at rest(stagnant). The growth of these microbial can cause corrosion in cooling water systems.To prevent the formation of corrosion due to these microbial, the inhibition is done byusing the phosphoric acid inhibitor. The results showed that the optimum concentration of100 ppm phosphoric acid inhibitor with the addition of 100 ppm isothiazoline biocide toreduce the rate of growth of microbial. Corrosion inhibition ability investigated throughthe simulation testing of corrosion that occurs on the coupon samples were immersed in acertain period of time by using water cooling tower systems. This test was evaluated byTafel polarization test methods and Electrochemical Impedance Spectroscopy (EIS)., Cooling water system is an open recirculation system which serves to cool water from anindustrial process. One of the problems that arise in open recirculating cooling watersystems is the growth of microbial. To control the growth of microbial in the coolingsystem added isothiazoline biocide chemicals and monitoring the growth of microbial inthe water in the cooling system. From the observation can be seen to be the faster growthof microbial in relation to the length of time, especially if the cooling tower is at rest(stagnant). The growth of these microbial can cause corrosion in cooling water systems.To prevent the formation of corrosion due to these microbial, the inhibition is done byusing the phosphoric acid inhibitor. The results showed that the optimum concentration of100 ppm phosphoric acid inhibitor with the addition of 100 ppm isothiazoline biocide toreduce the rate of growth of microbial. Corrosion inhibition ability investigated throughthe simulation testing of corrosion that occurs on the coupon samples were immersed in acertain period of time by using water cooling tower systems. This test was evaluated byTafel polarization test methods and Electrochemical Impedance Spectroscopy (EIS).]"