KAJI EKSPERIMENTAL PENGARUH DIAMETER NOZZLE TERHADAP UNJUK KERJA STEAM EJECTOR PADA SISTEM REFRIGERASI - Diponegoro University | Institutional Repository (UNDIP-IR)
DAFTAR PUSTAKA
1. Chunnanond K. Aphornratana S, Ejectors: applications in refrigeration technology,
Thammasat University, 2003.
2. Meyer J, Steam jet ejector cooling powered by low grade waste or solar heat,
Stellenbosch University, Belanda, 2006.
3. Changel, Thermodynamics an engineering approach, 5 th 1ed, McGraw-Hill, 2005.
4. Peralatan energi listrik: refrigerasi dan penyejuk AC, UNEP, 2006.
5. Mengenal Komponen-komponen utama sebuah sistem refrigerasi mekanik, Inti
Pratama Teknik, 2009.
6. Huang B.J, Chang J.M, C.P. Wang and V.A. Petrenko, A 1-D analysis of ejector
performance, Int. J. Refrigeration, 1999, 22, 354-364.
7. Pridasawas W, Solar-driven ejector refrigeration system case study in thailand,
Bangkok, 2003.
8. White, Frank M, Mekanika fluida edisi keempat, Erlangga, Jakarta, 1988.
9. Nguyen. V.M, Development of a solar-powered passive ejector cooling system,
Nottingham NG7 2RD UK, 2000.
10. El-desouky. Hisham, Evaluation of steam jet ejector, Kuwait, 2001.
11. Chunnanond K. Aphornratana S, A Theoritical and experimental study of a smallscale steam jet refrigerator, University of Sheffield, 1995.
12. Perry. Robert H, Green. Don W, Perry's chemical engineers' handbook (Sixth
Edition ed.), McGraw Hill, (1984) ISBN 0-07-049479-7.
13. Setiawan D, Analisa pengaruh diameter nosel terhadap unjuk kerja steam ejector
pada sistem refrigerasi dengan menggunakan CFD, Diponegoro University, 2009.
14. Chaurette. Jacques, Maximum piping operating pressure as recommended by the
asme process piping code, Fluide Design Inc, 2002.
79
1. Chunnanond K. Aphornratana S, Ejectors: applications in refrigeration technology,
Thammasat University, 2003.
2. Meyer J, Steam jet ejector cooling powered by low grade waste or solar heat,
Stellenbosch University, Belanda, 2006.
3. Changel, Thermodynamics an engineering approach, 5 th 1ed, McGraw-Hill, 2005.
4. Peralatan energi listrik: refrigerasi dan penyejuk AC, UNEP, 2006.
5. Mengenal Komponen-komponen utama sebuah sistem refrigerasi mekanik, Inti
Pratama Teknik, 2009.
6. Huang B.J, Chang J.M, C.P. Wang and V.A. Petrenko, A 1-D analysis of ejector
performance, Int. J. Refrigeration, 1999, 22, 354-364.
7. Pridasawas W, Solar-driven ejector refrigeration system case study in thailand,
Bangkok, 2003.
8. White, Frank M, Mekanika fluida edisi keempat, Erlangga, Jakarta, 1988.
9. Nguyen. V.M, Development of a solar-powered passive ejector cooling system,
Nottingham NG7 2RD UK, 2000.
10. El-desouky. Hisham, Evaluation of steam jet ejector, Kuwait, 2001.
11. Chunnanond K. Aphornratana S, A Theoritical and experimental study of a smallscale steam jet refrigerator, University of Sheffield, 1995.
12. Perry. Robert H, Green. Don W, Perry's chemical engineers' handbook (Sixth
Edition ed.), McGraw Hill, (1984) ISBN 0-07-049479-7.
13. Setiawan D, Analisa pengaruh diameter nosel terhadap unjuk kerja steam ejector
pada sistem refrigerasi dengan menggunakan CFD, Diponegoro University, 2009.
14. Chaurette. Jacques, Maximum piping operating pressure as recommended by the
asme process piping code, Fluide Design Inc, 2002.
79