RANCANG BANGUN TEST BED SISTEM KOMPRESOR TORAK DUA TINGKAT ( DESIGN AND TEST BED PISTON COMPRESSOR SYSTEM LEVEL TWO )

Subekti, Nanang and Handayani, Sri Utami and Sutrisno, Sutrisno (2016) RANCANG BANGUN TEST BED SISTEM KOMPRESOR TORAK DUA TINGKAT ( DESIGN AND TEST BED PISTON COMPRESSOR SYSTEM LEVEL TWO ). Undergraduate thesis, D3 Teknik Mesin Fakultas Teknik.

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Abstract

Test bed sistem kompresor torak dua tingkat ini merupakan suatu peralatan yang digunakan untuk mempelajari kinerja kompresor torak 2 tingkat. Proses pembuatan test bed kompresor torak dua tingkat meliputi beberapa tahapan, yaitu : pertama desain test bed kompresor torak dua tingkat, kedua proses fabrikasi yang meliputi pembuatan rangka, perakitan instrumen alat ukur dan komponen kompresor, kemudian dilakukan pengujian kinerja kompresor supaya pada saat test bed dijalankan dapat memperoleh hasil yang baik dan maksimal. Hasil yang diperoleh dari pengujian test bed kompresor torak dua tingkat yaitu volume langkah kompresor sebesar 0,000213595 m3, kapasitas teoritis kompresor maksimal 0.208 m3/menit, efisiensi volumetrik 99.8 %, kapasitas hisap maksimal 0,207m3/menit,,daya adiabatik maksimal 1,34 HP, daya listrik maksimal yang terpakai sebesar 1,73 HP, temperatur maksimal yang tercapai pada tekanan 12 bar sebesar 172 °C, efisiensi energi maksimal yang dihasilkan sebesar 77,7%. Kata kunci : termometer, daya adiabatik, daya listrik, efisiensi energi Two stages reciprocating compressor test bed is an equipment which is used to learn about performance of two stages reciprocating compresor. Two stages reciprocating compressor test bed manufacturing consist of several steps. First is designing of two stages reciprocating compressor test bed. The second is fabrication step consist of frame fabrication, instrument and compressor component installation, measurement instrument. Subsequently, testing proccess to ensure and guarantee to the components are able to do well and maximum performance. The results of bed compressor test are 0,000213595 m3 of stroke compressor volume, theoritical capacity of compressor are 0,208 m3/minute, volumetric efficiency 99,8 %, maximum compressor suction capacity 0,207m3/minute, 1.34 HP of adiabatic maximum power, 1.73 HP of maximum utilized power of electricity, the maximum temperature which could be reached on 12 bars is 172 degree celcius, and the maximum efficiency of energy is 77,7 percent which could be produced. Keywords: thermometer, adiabatic power, power of electricity, efficiency of

Item Type:Thesis (Undergraduate)
Subjects:T Technology > TJ Mechanical engineering and machinery
Divisions:Faculty of Engineering > Diploma in Mechanical Engineering
Faculty of Engineering > Diploma in Mechanical Engineering
ID Code:49819
Deposited By:Mrs Wahyu D3 Teknik Mesin
Deposited On:19 Aug 2016 08:43
Last Modified:19 Aug 2016 08:43

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