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Ari Darmawan Pasek
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Mechanical Engineering

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ANALISIS DINAMIKA STRUKTUR PADA SISTEM FLEKSIBEL DI ANTARIKSA Ari Darmawan Pasek
Mesin Vol. 9 No. 1&2 (1990)
Publisher : Mesin

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Abstract

Berdasarkan data-data penelitian sebelumnya, dalam makalah ini akan dibahas model pendidihan dan mekanisme perpindahan panasnya pada permukaan berpori dalam cairan refrijeran. Ditunjang dengan suatu kajian analitik, diusulkan tiga model pendidihan yang terjadi pada tiga daerah fluks panas yang berbeda. Pada fluks panas rendah terjadi pendidihan pada dasar permukaan berpori dan pada fluks panas tinggi terjadi pendidihan pada permukaan. Sedangkan model pendidihan yang ketiga adalah pendidihan antara yang terjadi pada daerah transisi antara daerah fluks panas rendah dan tinggi. Pada makalah ini akan dibahas pula suatu metoda dan persamaan korelasi untuk memperkirakan koefisien perpindahan panas pada setiap daerah pendidihan.
PERBANDINGAN PERSAMAAN KOEFISIEN PERPINDAHAN KALOR KESELURUHAN UNTUK PERANCANGAN PENUKAR KALOR Yuli Setyo Indartono; Ari Darmawan Pasek
Mesin Vol. 11 No. 2 (1996)
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This paper concerns with comparison of various heat transfer equations which can be used in the design of a shell and tube heat exchanger for combustion gas and air. A computer programme which also includes the thermodynamics properties of the gas and air was made for that purpose. Characteristics of the heat exchangers are then compared with the existing industrial heatexchanger. It was found that the overall heat transfer coefficient equation proposed by Babcock & Wilcock gives the best results .
PENGARUH ETANA PADA REFRIGERAN HIDROKARBON Zainal Abidin; Ari Darmawan Pasek; Abdurrachim Abdurrachim
Mesin Vol. 18 No. 2 (2003)
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Hydrocarbon refrigerant is one kind of refrigerants, which is developed to substitute CFC and HCFC. The substances contained in hydrocarbon refrigerant are etane, propane, normal butane, and iso butane. Ethane is being suspected on reducing the performance of refrigerator. This paper deals with theoretical study of ethane influence in hydrocarbon refrigerant. First of all it is necessary to create software for evaluating thermodynamics properties. This software has many choices for prescribed thermodynamics properties. According to the analysis, it is known that the more ethane content in HCR-12, the more deviation of saturated pressure-temperature curves between HCR-12 and R-12. While in HCR-22 when the pressure is less that 4 bar, it is known that the more ethane content, the more deviation of saturated pressure-temperature curve between HCR-22 and R-22. However, if the pressure is above 4 bars, it is known that the more ethane, the saturated pressure-temperature curve is close to the one of HCR-22 with 4% ethane content. On performance test of standard refrigeration system using the refrigerant, it is known that the more ethane content in HCR-12 and HCR-22, COP of the system decreases gradually. The average temperature in evaporator and condensor also declines.
PENGEMBANGAN PERSAMAAN KORELASI PENDIDHAN KOLAM UNTUK REFRIGERAN HIDROKARBON Ari Darmawan Pasek; Willy Adriansyah; Hery Hery; Hengky Leo
Mesin Vol. 23 No. 2 (2008)
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Abstract

Hydrocarbons (HC) are considered as the alterative substitutes of CFC and HCFC refrigerants. Using it as new refrigerants needs a complete knowledge of its characteristics. One of them is the boiling heat transfer coefficient. Series of experiments were carried out to investigate this characteristics. Experiments had been carried out with R-12 (CFC) and R-22 (HCFC) and their substitutes, HC-12 and HC-22. Tested refrigerant was conditiond at a saturated state and an electric heater immersed in the refrigerant pool of liquid was used as the boiling surface. Boiling heat transfer coefficient is determined as the ratio between the heat flux and the excess temperature on the boiling surface. The experimental results were compared between R-12 and R-22 with their substitutes. The experimental results were compared with the correlation equations proposed by researchers. Based on the analysis results, modified correlation equations are proposed for the tested refrigerants.
Co-Authors Abdurrachim Abdurrachim Hengky Leo Hery Hery Willy Adriansyah Yuli Setyo Indartono Zainal Abidin