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DAFTAR PUSTAKA
[1] “Chapter 7 相关分析和回归分析,” vol. 2, no. 110, pp. 95–96.
[2] S. Pramateri, “B a b 9 9,” vol. 2008, pp. 189–230, 2008.
[3] Tim Dosen, “Buku Ajar: Termodinamika Teknik 1. Fakultas
Teknik,” p. 66 hal, 2017.
[4] P. Makroskopik, “dan segala sesuatu di luar sistem yang
mempengaruhi kelakuan sistem secara langsung disebut,” pp. 1–
102.
[5] G. A. S. P. Cycles, “Chapter 9 GAS POWER CYCLES,” Most,
vol. i, pp. 1–39, 2006.
[6] S. Sudarlin et al., “Termodinamika Kimia,” no. May, 2016.
[7] Y. A. Cengel and M. A. Boles, “Chapter 6 THE SECOND LAW
OF,” pp. 1–73, 2008.
[8] T. Matching and R. Test, “Chapter 8 Chapter 8,” Test, vol. 1937,
no. 1992, pp. 162–173, 2001.
[9] A. M. de Paor, “Steady-state optimum resistive load control for
wind-driven permanent magnet alternators,” Appl. Energy, vol. 12,
no. 4, pp. 317–325, 1982.
[10] M. Z, Djuanda, A. R. Rasyid, and Munandar, “Analisis Unjuk
Kerja ( COP ) Mesin Pendingin Hibrid dengan Menggunakan
Refrigeran R-22,” Teknologi, vol. 17, no. Oktober, pp. 49–58,
2017.
TERMODINAMIKA: Siklus Kompresi Uap I GEDE ARTHA NEGARA,ST.,MT
