DAFTAR PUSTAKA
Agustina, A. 2013. Analisis Regresi Dengan Spss 17 Dan Cara Membacanya. http://yayueayu.blogspot.co.id/2013/11/analisis-regresi-dengan-spss-17 dan.html. (2 September 2017) Aji. S., 2015. Alasan Mengapa Radiator Coolant Tidak Bisa 100 Persen Tanpa Air. https://kupasmotor.wordpress.com/2015/01/05/alasanmengaparadiatorcool ant tidak-bisa-100-persen-tanpa-air/. (5 Agustus 2017) Ambarita, H. 2010. Persamaan Pembentuk Aliran. Teknik Mesin Usu Anonimous, 2003. Fluent 6.1 Tutorial Guide. Http://www.fluent.com [ASHRAE] American Society of Heating, Refrigerating, and Air-conditioning Basavana, S., and Shashisher, K.S., 2013. CFD ANALYSIS OF TRINGULAR ABSORBER TUBE OF A SOLAR FLATE PLATE COLLECTOR. Int. J. Mech. Eng. And Rob.. Res., 2 (1), 2278-0149. Cengel YA & Turner RH. 2001. Thermal-Fluid Sciences. United States: McGrawHill Darsopuspito, S., & Suwito, A.O. P., (2013), Analisa Performa Kolektor Surya Tipe Parabolic Trough Sebagai Pengganti Sumber Pemanas Pada Generator Sistem Pendingin Difusi Absorpsi. JURNAL TEKNIK POMITS, 2 (3), 2337-3539. Dow.1995-2017. Heat Transfrer Fluids http://www.dow.com/heattrans/support/ selection/ethylene-vs propylene.htm (2 September 2017) Duffie, J. A., and Backman, W. A., (1991), Solar Engginering of Thermal Processes, 2nd ed. John Wiley & Sons, Inc, New York Engineers. 2001. ASHRAE Fundamental Hanbook. United States: ASHRAE Publisher. Ingle, P.W., Pawar, A.A., Deshmukh, B.D., & Bhosale. K.c., (2013). CFD Analysis of Solar Flat Plate Collector. The Journal, 3(4), 337-342. Irawan,
Iwan.,
2012.
Simulasi
Menggunakan
CFD.
http://iwanirawanumc2009.blogspot.co.id/2012/02/simulasimenggunakan= cfd.html. ( 28 Agustus 2017)
http://digilib.mercubuana.ac.id/z
IsmantoAlpha’s.,
2009.
Macam-macam
Kolektor.
http://ismantoalpha.
blogspot.co.id/2009/12/macam-macam-kolektor-surya.html. ( 2 Juni 2017) Kreith F. 1994. Prinsip-prinsip Perpindahan Kalor. Jakarta: Erlangga Manilal, k. M., 2016. Design, CFD Analysis and Fabrication of Solar Plate Collector. IRJT, 3(1) 2395-0056 Marbun, H.M., & Hazwi, M. (2013). Simulasi Aliran Fluida Pada Pompa Hidram Dengan Tinggi Air Jatuh 2.3 M Dengan Menggunakan Perangkat Lunak Cfd. Jurnal e-Dinamis, 7(3), 2338-1035 Niam. A. G., Seminar. K. B., & Yuwono. A. S., 2009. Simulasi Dispersi Gas Polutab dari Cerobong Ke Lingkungan dengan Pendekatan (Computational Fluid
(CFD).
Dynamics
PROSIDING
SEMINAR
NASIONAL
HIMPUNAN INFORMATIKA PERTANIAN INDONESIA. 978-97995366-0-7 Oktariski, D., 2012. Simulasi Numerik Untuk Pola Sebaran Suhu Kolektor Surya Pelat Datar Tipe Back-Pass Cover Semi Tertutup. Skripsi. Fakultas Teknologi Pertanian Institut Pertanian Bogor Pramukti, A., 2012. Pengaruh Arah Parabolic Trough Collector (PTC) Terhadap Efisiensinya. Skripsi. Departemen Teknik Mesin, Universitas Indonesia. Raharjo,
S.
2014.
Uji
analisis
regresi
linier
ganda
dengan
SPSS.
http://www.konsistensi.com/2013/05/uji-analisis-regresi-linear ganda.html. (13 September 2017) Raharjo, S., 2017. Panduan lengkap uji analisis regresi linier sederhana dengan SPSS.
http://www.spssindonesia.com/2017/03/uji-analisis-regresi-
linearsederhana.html. (13 September 2017) Rubin, B., (2008-2011). DesignBuilder Simulation + CFD Training Guide. Energy Model: OTEC Sembiring, N., 2013. Simulasi Kolektor Surya Tipe Plat Datar Dengan Sudut 60° Dan Boks Pengering Pada Mesin Pengering Hasil Pertanian. Skripsi. Departemen Teknik Mesin, Universitas Sumatra Utara. Solar, Inti., 2017. Kolektor Tabung Vacum. http://intisolar.com/news/kolektortabungvacuum/. ( 31 Agustus 2017)
http://digilib.mercubuana.ac.id/z
Tuakia, Firman., 2008. Dasar-dasar CFD Menggunakan FLUENT. Bandung: InformatikaBandung. Utomo,
B.,
2012.
Cara
Membaca
Tabel
http://stiesiaku.blogspot.co.id/2012/04/contoh-soal-me.html.
Regresi. (
13
September 2017) Yani. E., Abdurrachim., & Pratoto. A., 2009. Penghitungan Efisiensi Kolektor Surya Pada Pengering Surya Tipe Aktif Tidak Langsung Pada Laboratorium Surya ITB. 31(2), 0854-8471 Yarshi, K. A. M., Paul, B. 2015. Analysis of Heat Transfer Performance of Flat Plate Solar Collector using CFD. The Computer Journal, 4(10), 3576-3580.
http://digilib.mercubuana.ac.id/z
LAMPIRAN A
Physical Properties Of Ethylene Glycol And Propylene Glycol Table 1. Physical Properties Of Ethylene Glycol And Propylene Glycol
http://digilib.mercubuana.ac.id/z
Tabel 2. Freezing and Boiling Points of Aqueous Solutions of Ethylene Glycol
http://digilib.mercubuana.ac.id/z
Tabel 3. Freezing and Boiling Points of Aqueous Solutions of Propylene Glycol
http://digilib.mercubuana.ac.id/z
Tabel 4. Density of Aqueous Solutions of Ethylene Glycol
Tabel 5. Specific Heat of Aqueous Solutions of Ethylene Glycol
http://digilib.mercubuana.ac.id/z
Table 6. Thermal Conductivity of Aqueous Solutions of Ethylene Glycol
Tabel 7. Viscosity of Aqueous Solutions of Ethylene Glycol
http://digilib.mercubuana.ac.id/z
Table 8. Density of Aqueous Solutions of an Industrially Inhibited Propylene Glycol
Table 9. Specific Heat of Aqueous Solutions of Propylene Glycol
http://digilib.mercubuana.ac.id/z
Table 10. Thermal Conductivity of Aqueous Solutions of Propylene Glycol
Table 11. Viscosity of Aqueous Solutions of Propylene Glyco
http://digilib.mercubuana.ac.id/z
Grafik 1. Density of Aqueous Solutions of Industrially Inhibited Ethylene Glycol (vol. %)
Grafik 2. Specific Heat of Aqueous Solutions of Industrially Inhibited Ethylene Glycol (vol. %)
\
http://digilib.mercubuana.ac.id/z
Grafik 3. Thermal Conductivity of Aqueous Solutions of Industrially Inhibited Ethylene Glycol (vol.%)
Grafik 4. Viscosity of Aqueous Solutions of Industrially Inhibited Ethylene Glycol (vol. %)
http://digilib.mercubuana.ac.id/z
Grafik 5. Density of Aqueous Solutions of Industrially Inhibited Propylene Glycol (vol. %)
Grafik 6. Specific Heat of Aqueous Solutions of Industrially Inhibited Propylene Glycol (vol. %)
http://digilib.mercubuana.ac.id/z
Grafik 7. Thermal Conductivity of Aqueous Solutions of Industrially Inhibited Propylene Glycol (vol. %)
Gravik 8. Viscosity of Aqueous Solutions of Industrially Inhibited Propylene Glycol (vol. %)
http://digilib.mercubuana.ac.id/z
LAMPIRAN B
Hasil Simulasi Regresi Linier Dengan Fluida Ethylene Glycol
http://digilib.mercubuana.ac.id/z
http://digilib.mercubuana.ac.id/z
http://digilib.mercubuana.ac.id/z
http://digilib.mercubuana.ac.id/z
http://digilib.mercubuana.ac.id/z
LAMPIRAN C
Hasil Simulasi Regresi Linier Dengan Fluida Propylene Glycol
http://digilib.mercubuana.ac.id/z
http://digilib.mercubuana.ac.id/z
http://digilib.mercubuana.ac.id/z
http://digilib.mercubuana.ac.id/z
http://digilib.mercubuana.ac.id/z
http://digilib.mercubuana.ac.id/z
LAMPIRAN D
http://digilib.mercubuana.ac.id/z
LAMPIRAN E
http://digilib.mercubuana.ac.id/z