48
DAFTAR PUSTAKA
[1] Syaiful M. dan Hargono, “Profil Suhu pada Proses Pengeringan Produk Pertanian dengan Simulasi Computational Fluid Dynamics (CED)”.
Reaktor, 12(3): 195–202.2009
[2] Ballesiotis V. dan E.Delyanis. “Solar Drying”. Solar Energy (85): 1665-1691. 2011
[3] Burlian, Firmansyah dan Aneka Firdaus. Kaji Eksperimental Alat Pengering Kerupuk Tenaga Surya Tipe Box Menggunakan Konsentrator Cermin Datar. Departemen Teknik Mesin, Universitas Sriwijaya, Palembang. 2011
[4] Dina, Sari Farah., Farel Napitupulu dan Himsar Ambarita. “Efektifitas Pengeringan Kontinu Biji Kakao Indonesia Menggunakan Energi Surya Dan Termokimia”. Seminar Nasional Teknologi Industri Hijau, Semarang. 2013
[5] Raman, S. Vijaya Venkata., S. Iniyan dan Ranko Goic. “ A Review of Solar Drying Technologies”. Renewable and Sustainable Energy Reviews (16): 2652 – 2672. 2012
[6] Mohanraj, M. dan P. Chandrasekar. “Performance of a Forced Solar Drier Integrated with Gravel as Heat Storage Material for Chili Drying”. Journal
of Engineering and Technology 4(3): 305 – 314. 2009
[7] Fagunwa, A. O., O. A. Koya dan M. O. Faborade. “Development of an Intermittent solar Dryer for Cocoa Beans”. Agricultural Engineering
Internasional: the CIGR Ejournal (11): 1292 – 1305. 2009
[8] Salomo., M. Ginting dan R. Akbar. “Pembuatan Alat Pengering Surya untuk Hasil Pertanian Menggunakan Kolektor Berpenutup Prisma Segitiga”. Jurnal APTEK 5(2): 109 – 114. 2013
[9] Othman, M. Y., A. Fudholi., M. H. Ruslan., M. Yahya., A. Zaharim and K. Sopian. “Design and Testing of Solar Dryer for Drying Kinetics of Seaweed in Malaysia”. Solar Energy Research Institute, Universitas Kebangsaan Malaysia, Bangi Selangor. 2011
[10] Amer, B. M. A., M. A. Hosaain dan K. Gottschalk. “Desain and Performance Evaluation of a New Hybrid Solar Dryer for Banana”.
Energy Convesion and Management (51): 813 – 820. 2010
[11] Deshmukh, A. Waheed., Mahesh N. Varma., Chang Kyoo Yoo dan Kailas L. Wasewar. “Investigation of Solar Drying of Ginger (Zingiber officinale)
49
Emprical Modelling, Drying Characteristics, and Quality Study”. Chinese
Journal of Engineering: 1 – 8. 2014
[12] Bal, Lalit M., Santosh Satya and S. N. Naik. “Solar Dryer with Thermal Energy Systems for Drying Agricultural Food Products: A Review”.
Renewable nd Sustainable Energy Reviews (30): 1 – 17. 2010
[13] Shanmugam, V. And E. Natarajan. “Experimental Study of Regenerative Desiccant Integrated Solar Dryer With and Without Reflective Mirror”.
Applied Thermal Engineering (27): 1543 – 1551. 2007
[14] Thoruwa, T. F. N., C. M. Johnstone., A. D. Grant and J. E. Smith. “Novel, Low Cost CaCl2 Based Desiccants for Solar Crop Drying Applications”.
Renewable Energy (19): 513 – 520. 2000
[15] Yani, Endri., Abdurrachin dan Adjar Pratoto. “penghitungan Efisiensi Kolektor Surya pada Pengering Surya Tipe Aktif tidak Langsung pada Laboratorium Surya ITB. TeknikA 2(31): 20 – 25. 2009
[16] Ferenc K, Joszef B, and Marianna V. Change In Solar Radiation Energy
And Its Relation To Monthly average Temperature. University of Miscole.
Hungaria. 2002
[17] Arta, I Ketut Guna. “ Sistem Pengeringan Daging dengan Menggunakan Alat Pengering Energi Surya”. Tesis, Program Pascasarjana Universitas Udayana, Denpasar. 2014
[18] Anwar, Hizami Ch., Budianto Lanya., Agus Thamrin dan Tamrin. “Rancang Bangun Alat Pengering Surya dengan Kolektor Keping Datar”.
Jurnal Teknik Pertanian Lampung 1(1): 29 – 36. 2012
[19] Porter L. L. “Benefits of Cocoa Polyphenols”. Manufacturing
Confectioner 86(6): 49–53. 2006
[20] Ardhana, Made M. dan Graham H. Fleet. “The Microbial Ecology of Cocoa Beans Fermentations in Indonesia”. International Journal of Food
Microbiology (86): 87 – 99. 2003
[21] Clement, Akmel Djedro., Assidjo N. Emmanuel., Kouame Patrice amd Yao K. Benjamin. “Mathematical Modelling of Sun Drying Kinetics of Thin Layer Cocoa (Theobroma Cacao) Beans”. Journal of Applied Siences
Research 5(9): 1110 – 1116. 2009
[22] Gunasekaran K, Shanmugan, V and Suresh, P. “Modelling and Analytical Experimental Study of Hybrid Solar Dryer Integrated with Biomass Dryer for Drying Coleus Forskohlii Stems”. IPCSIT (28): 28-32. 2012
50
[23] Suriadi, I Gusti Agung Kade dan Made Ricki Murti. “Kesetimbangan Energi Termal dan Efisiensi Transient Pengering Aliran Alami Memanfaatkan Kombinasi Dua Energi”. Jurnal Teknik Industri 12(1): 34 – 40. 2011
[24] Madhlopa, A., Jones SA dan Kalenge Saka JD. “A Solar Air Heater with Composite Absorber Systems for Food Dehydration”. Renewable Energy 27: 27 – 37. 2002
[25] Handoyo, Ekadewi H., Philip Kristanto dan Suryanti Alwi. “Disain dan Pengujian Sistem Pengerng Ikan Bertenaga Surya”. Departemen Teknik Mesin, Fakultas Teknologi Industri, Universitas Kristen Petra. 2007
[26] Rosa, Yazmendra., Maimuzar dan Safril. “Pengeringan Gambir dengan Memanfaatkan Energi Surya”. Jurnal Teknik Mesin 3(1): 1 – 11. 2006
[27] Susilo, Bambang dan Rahartina Okaryanti. “Studi Sebaran Suhu dan RH Mesin Pengering Hybrid Chip Mocaf”. Teknologi Pertanian 13(2): 88 – 96. 2012
[28] Toshniwal, Umesh dan S.R Karale, A review paper on Solar Dryer,
International Journal of Engineering Research and Applications (IJERA),
2013
[29] Abdullah, Kamaruddin. “Fish Drying Using Solar Energy, Lectures and Workshop Exercises on Drying of Agricultural and Marine Products”.
ASEAN SCIENCER : 159-183. 2003
[30] Ekechukwu, O.V and Norton, B. “Review of Solar-Energy Drying Systems I: an Overview of Drying Principle and Theory”. International
Journal of Energy Conversion & Management 40: 593 – 613. 1999
[31] Dina, Sari Farah., Farel Napitupulu dan Himsar Ambarita. “Study on Effectivenes of Continuous Solar Dryer Integrated with Desiccant Thermal Storage for Drying Cocoa Beans”. Case Studies in Thermal Engineering (5): 32 – 40. 2015
[32] OAP. An Intoduction to Zeolite Molecular Sieve. Calgary. 2005.
[33] I.C Kemp. “Methods for Processing Experimental Drying Kinetics Data”.
Drying Technology Journal, 19(1): 15-34. 2001
[34] Chinenye, Ndukwu MacManus, A.S. Ogunlowo, and O.J. Olukunle, Cocoa Bean (Theobroma cacao L.) Drying Kinetics, Chilean Journal of
Agriculture Research, 2010
51
[35] Hii C.L., C.L. Law., and M. Cloke, Modeling using a new thin layer drying model and product quality of cocoa, Journal of Food Engineering 90:191–198, 2009.
[36] Gatea, Ahmed Abed, Design Construction and Performance Evaluation of Solar Maize Dryer, Journal of Agricultural Biotechnology and Sustainable
Development Vol. 2(3), pp. 039-046, 2010
[37] Fatouh, M., Metwally, M.N., Helali, A.B. and Shedid, M.H, Herb drying using heat pump dryer. Energy Conversion Management. 47: 2629-2643, 2006.
[38] M. Ginting, Pembuatan dan pengujian alat pengering menggunakan kolektor palungan mengeringkan ubi jalar, Jurnal Komunikasi Fisika
Indonesia ISSN 14122960, Vol.7. No.1.Th.2009.
[39] Gubta RB., Demirbas A, Gasolin, Diesel, and Ethanol Biofuels from Grasses and Plants. Cambridge : Cambridge Univ Pr, 2010.
[40] Amanto, Bambang Sigit., Godras Jati Manuhara dan Ratri Rosdiana Putri, Kinetika Pengeringan Chips Sukun (Artocarpus Communis) dalam Pembuatan Tepung Sukun Termodifikasi dengan Asam Laktat Menggunakan Cabinet Dryer. Jurnal Teknologi Hasil Pertanian, Vol VIII. No.1. 2015.
[41] Karathanos, V.T., Belessiotis, V.G., Application of a thin layer equation to drying data of fresh and semi-dried fruits. Journal of Agricultural
Engineering Research 74: 355–361, 1999.
[42] Doymaz, I., Drying characteristics and kinetics of okra. Journal of Food
Engineering 69: 275–279, 2005.
[43] Garavand, Amin Taheri., Shahin Rafiee dan Alireza Keyhani, Mathematical Modeling of Thin Layer Drying Kinetics of Tomato Influence of Air Dryer Conditions