Rancang Bangun Evaporator Pada Mesin Pendingin Menggunakan Siklus Absorpsi Memanfaatkan Panas Buang Motor Bakar Dengan Pasangan Refrijeran-Absorben Amonia-Air
DAFTAR PUSTAKA
ASHRAE. 1997. Ashrae Handbook Fundamentals Atlanta. GA
Bp Statistical Review. 2015. Produksi Energi Indonesia (Internet)
(Diakses 2016 Mei 29). Tersedia pada : http//www.bp.com/global/energyeconomics
Cao Tao,dkk.2015.Performance investigation of engine waste heat powered
absorbtion cycle cooling system for shipboard applications.Applied
Thermal Engineering .90.820-830
Cai Dehua dkk. 2016. Experimental Evaluatin on Thermal Performance of An
Air-Cooled Absorbtion Refrigeration Cycle with N�3 -LiN�3 and N�3 NaSCN Refrigerant Solutions.Energy Conversion and Managament 120.
Hal 32-43
Chandra P, Galuh. 2010. Perancangan dan Analisa Performansi Sistem
“KompresiI” Pendingin Absorbsi Memanfaatkan Panas Gas Buang Mesin
Diesel pada Kapal Nelayan Ikan dengan Menggunakan Refrigrant
Amonia-Water (NH 3 -H 2 O. Suarabaya : Institut Teknologi Sepuluh
November
Conde M .2006. Thermophysical Properties of NH3 + H2O Mixtures
for Industrial Design of Absorption Refrigeration Equipment. M Conde
Engineering : Zurich
C.P Arora.1989. Refrigeration and Air Conditioning, Third Edition.
Mc Graw-Hill Publishing Company Limited : New York
Donnellan Philip dkk. 2015. Recycling Waste Heat Energy Using Vapour
Absorbtion Heat Transformers. Renewable and Sustainable Energy
Reviews 42. Hal. 1290-1304
Universitas Sumatera Utara
Fathi,R. 2001. Performance of a Solar LiBr - Water Absorption Refrigerating
System. Journal the Thermique. Hal. 73-78
Farshi L. Garousi dkk. 2014. First And Second Law Analysis of Ammonia/Salt
Absorbtion Refrigeration Systems. International Journal of Refrigeration
40. Hal 111-121
Frank Kreith. 1991. Prinsip Prinsip Perpindahan Panas, Edisi Ketiga. Erlangga :
Jakarta
Incropera, Dewitt, Bergman, Lavine. 2006. Fundamentals of Heat and Mass
Transfer, Sixth Edition. Willey : New York
Joo Hong Sung dkk. 2016. Novel Absorbtion Refrigeration System with A Hollow
Fiber
Membrane-Based
Generator.
International
Journal
of
Refrigeration. 67. Hal.418-432
Kaynakli Omer dkk. 2015. Energy and Exergy Analysis of A Double Effect
Absorbtion Refrigeration System Based on Different Heat Sources. Energy
Conversion and Management 106. Hal 21-30
Mark Miller. 2006. Air Conditioning and Refrigeration Mc Graw-Hill : New York
Mazzei Maria S dkk. 2014. NLP Model-Based Optimal Design of Libr-H2 O
Absorbtion Refrigeration Systems. International Journal of Refrigeration
38. Hal 58-70
Michael J. Moran.1998. Termodinamika Teknik, Jilid Dua. Erlangga : Jakarta
Raymond Chang. 2003. Kimia Dasar, Edisi Ketiga. Erlangga : Jakarta
Raguvanshi, Satish. 2011. Analysis of Ammonia –Water (NH3-H2O) Vapor
Absorption Refrigeration System based on First Law of Thermodynamic.
International Journal of Scientific & Engineering Research Volume
2
Universitas Sumatera Utara
Rego.A.T dkk. 2014. Automotive Exhaust Gas Flow Control foor Ammonia-Water
Absorbtin Refrigeration System. Applied Thermal Engineering 64. Hal
101-107
Sanjaya, Robbin. 2010. Perencanaan Mesin Pendingin Sistem Absorbsi Lithium
Bromide dengan Tinjauan Termodinamika. Suarabaya : Institut
Teknologi Sepuluh November
Shan K. Wang. 1991. Hand Book of Air Conditioning and Refrigeration, second
Edition. Mc Graw-Hill Company, Inc : New York
She Xiaohui dkk. 2015. A Novel Low-Grade Heat-Driven Absorbtion
Refrigeration System with LiCl-�2 O and LiBr-�2 O Working Pairs.
International Journal of Refrigeration 58. Hal 219-234
Shi Yuqi dkk. 2016. The Performance Analysis of A Novel Absorbtion
Refrigeration Cycle Used for Waste Heat with Large Temperature Glide.
Applied Thermal Engineering 93. Hal 692-696
Statistik
Ekonomi Indonesia.
2004.
Potensi
Sumber Energi
Indonesia
(Internet)(Diakses 2016 Mei 29). Tersedia : pada http//uniquetha.
wordpress.com /tag/teknik-fisika
Soekimin. 2008. Perencanaan Unit Mesin Pendingin Pebuah Pabrik Es Balok
dengan Kapasitas 42 ton per Siklus di Kecamatan Bedagai Kabupaten
Serdang Bedagai. (Skripsi). Universitas Sumatera Utara : Medan
William S. Janna. 2000. Engineering Heat Transfer, Second Edition. CRC Press
LLC : Florida
Yunus A. Cengel. 1989. Heat and Mass Transfer A Practical Approach, Third
Edition. Mc Graw-Hill, Book Company, Inc : Singapore
Yunus A. Cengel. 1989. Thermodynamics an Engineering Approach, Fifth
Edition. Mc Graw-Hill, Book Company, Inc : Singapore
Universitas Sumatera Utara
ASHRAE. 1997. Ashrae Handbook Fundamentals Atlanta. GA
Bp Statistical Review. 2015. Produksi Energi Indonesia (Internet)
(Diakses 2016 Mei 29). Tersedia pada : http//www.bp.com/global/energyeconomics
Cao Tao,dkk.2015.Performance investigation of engine waste heat powered
absorbtion cycle cooling system for shipboard applications.Applied
Thermal Engineering .90.820-830
Cai Dehua dkk. 2016. Experimental Evaluatin on Thermal Performance of An
Air-Cooled Absorbtion Refrigeration Cycle with N�3 -LiN�3 and N�3 NaSCN Refrigerant Solutions.Energy Conversion and Managament 120.
Hal 32-43
Chandra P, Galuh. 2010. Perancangan dan Analisa Performansi Sistem
“KompresiI” Pendingin Absorbsi Memanfaatkan Panas Gas Buang Mesin
Diesel pada Kapal Nelayan Ikan dengan Menggunakan Refrigrant
Amonia-Water (NH 3 -H 2 O. Suarabaya : Institut Teknologi Sepuluh
November
Conde M .2006. Thermophysical Properties of NH3 + H2O Mixtures
for Industrial Design of Absorption Refrigeration Equipment. M Conde
Engineering : Zurich
C.P Arora.1989. Refrigeration and Air Conditioning, Third Edition.
Mc Graw-Hill Publishing Company Limited : New York
Donnellan Philip dkk. 2015. Recycling Waste Heat Energy Using Vapour
Absorbtion Heat Transformers. Renewable and Sustainable Energy
Reviews 42. Hal. 1290-1304
Universitas Sumatera Utara
Fathi,R. 2001. Performance of a Solar LiBr - Water Absorption Refrigerating
System. Journal the Thermique. Hal. 73-78
Farshi L. Garousi dkk. 2014. First And Second Law Analysis of Ammonia/Salt
Absorbtion Refrigeration Systems. International Journal of Refrigeration
40. Hal 111-121
Frank Kreith. 1991. Prinsip Prinsip Perpindahan Panas, Edisi Ketiga. Erlangga :
Jakarta
Incropera, Dewitt, Bergman, Lavine. 2006. Fundamentals of Heat and Mass
Transfer, Sixth Edition. Willey : New York
Joo Hong Sung dkk. 2016. Novel Absorbtion Refrigeration System with A Hollow
Fiber
Membrane-Based
Generator.
International
Journal
of
Refrigeration. 67. Hal.418-432
Kaynakli Omer dkk. 2015. Energy and Exergy Analysis of A Double Effect
Absorbtion Refrigeration System Based on Different Heat Sources. Energy
Conversion and Management 106. Hal 21-30
Mark Miller. 2006. Air Conditioning and Refrigeration Mc Graw-Hill : New York
Mazzei Maria S dkk. 2014. NLP Model-Based Optimal Design of Libr-H2 O
Absorbtion Refrigeration Systems. International Journal of Refrigeration
38. Hal 58-70
Michael J. Moran.1998. Termodinamika Teknik, Jilid Dua. Erlangga : Jakarta
Raymond Chang. 2003. Kimia Dasar, Edisi Ketiga. Erlangga : Jakarta
Raguvanshi, Satish. 2011. Analysis of Ammonia –Water (NH3-H2O) Vapor
Absorption Refrigeration System based on First Law of Thermodynamic.
International Journal of Scientific & Engineering Research Volume
2
Universitas Sumatera Utara
Rego.A.T dkk. 2014. Automotive Exhaust Gas Flow Control foor Ammonia-Water
Absorbtin Refrigeration System. Applied Thermal Engineering 64. Hal
101-107
Sanjaya, Robbin. 2010. Perencanaan Mesin Pendingin Sistem Absorbsi Lithium
Bromide dengan Tinjauan Termodinamika. Suarabaya : Institut
Teknologi Sepuluh November
Shan K. Wang. 1991. Hand Book of Air Conditioning and Refrigeration, second
Edition. Mc Graw-Hill Company, Inc : New York
She Xiaohui dkk. 2015. A Novel Low-Grade Heat-Driven Absorbtion
Refrigeration System with LiCl-�2 O and LiBr-�2 O Working Pairs.
International Journal of Refrigeration 58. Hal 219-234
Shi Yuqi dkk. 2016. The Performance Analysis of A Novel Absorbtion
Refrigeration Cycle Used for Waste Heat with Large Temperature Glide.
Applied Thermal Engineering 93. Hal 692-696
Statistik
Ekonomi Indonesia.
2004.
Potensi
Sumber Energi
Indonesia
(Internet)(Diakses 2016 Mei 29). Tersedia : pada http//uniquetha.
wordpress.com /tag/teknik-fisika
Soekimin. 2008. Perencanaan Unit Mesin Pendingin Pebuah Pabrik Es Balok
dengan Kapasitas 42 ton per Siklus di Kecamatan Bedagai Kabupaten
Serdang Bedagai. (Skripsi). Universitas Sumatera Utara : Medan
William S. Janna. 2000. Engineering Heat Transfer, Second Edition. CRC Press
LLC : Florida
Yunus A. Cengel. 1989. Heat and Mass Transfer A Practical Approach, Third
Edition. Mc Graw-Hill, Book Company, Inc : Singapore
Yunus A. Cengel. 1989. Thermodynamics an Engineering Approach, Fifth
Edition. Mc Graw-Hill, Book Company, Inc : Singapore
Universitas Sumatera Utara