1. bookTom 22 (2007): Zeszyt 5 (June 2007)
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eISSN
2719-9509
Pierwsze wydanie
01 Jan 1992
Częstotliwość wydawania
4 razy w roku
Języki
Angielski
Otwarty dostęp

A Model for the Prediction of Tobacco Temperature and Oxygen Profiles in Warehouse Aging Process

Data publikacji: 30 Dec 2014
Tom & Zeszyt: Tom 22 (2007) - Zeszyt 5 (June 2007)
Zakres stron: 358 - 364
Otrzymano: 12 Jan 2006
Przyjęty: 24 Jan 2004
Informacje o czasopiśmie
License
Format
Czasopismo
eISSN
2719-9509
Pierwsze wydanie
01 Jan 1992
Częstotliwość wydawania
4 razy w roku
Języki
Angielski

1. Finger, S.M., R.T. Hatch, and T.M. Regan: Aerobic microbial growth in semisolid matrices: heat and mass transfer limitation; Biotech. Bioeng. XVIII (1976) 1193–1218. Search in Google Scholar

2. Saucedo-Castaneda, G., G.M. Gutierrez-Rojas, G. Bacquet, M. Raimbault, and G. Viniegra-Gonzalez: Heat transfer simulation in solid substrate fermentation; Biotech. Bioeng. 35 (1990) 802–809. Search in Google Scholar

3. Saucedo-Castaneda, G., B.K. Lonsane, M.M. Krish-naiah, J.M. Navarro, S. Roussos, and M. Raimbault: Maintenance of heat and water balances as a scale-up criterion for the production of ethanol by fermentation system; Process Biochem. 27 (1992) 97–105. Search in Google Scholar

4. Lai, M.N., H.H. Wang, and F.W. Chang: Thermal diffu-sivity of solid mash of sorghum brewing-a-solid state fermentation; Biotech. Bioeng. 34 (1989) 1337–1342. Search in Google Scholar

5. Vander Gheynst, J.S., L.P. Walker, and J.-Y. Parlange: Energy transport in a high-solids aerobic degradation process: mathematical modeling and analysis; Bio-technol. Prog. 13 (1997) 238–248. Search in Google Scholar

6. Seki, H. and T. Komori: Heat transfer in composting process; J. Agr. Met. 3 (1983) 137–179. Search in Google Scholar

7. Seki, H. and T. Komori, T.: Heat transfer in composting process (part 2); J. Agr. Met. 1 (1984) 37–45. Search in Google Scholar

8. Hsieh, C.M., P.C. Ho, and Y.I. Chang: Theoretical model for a non-isothermal static compost; J. Chin. I. Ch.E. 1 (1997) 37–47. Search in Google Scholar

9. Robinzon, R., E. Kimmel, B. Krasovitski, and Y. Avni-melech: Estimation of bulk parameters of a composting process in windrows; J. Agric. Eng. Res. 73 (1999) 113–121. Search in Google Scholar

10. Bird, R.B., W.E. Stewart, and E.N. Lightfoot: Transport Phenomena, John Wiley & Sons, New York, 1960, pp. 554–559. Search in Google Scholar

11. Banyasz, J.L.: The thermodynamics of tobacco-water interactions; Beitr. Tabakforsch. Int. 18 (1999) 189–204. Search in Google Scholar

12. Seber, G.A.F. and C.J. Wild: Nonlinear Regression; Wiley, New York, 1989, pp. 10–100.10.1002/0471725315 Search in Google Scholar

13. Haug, R.T.: Compost engineering principles and practice; 2nd Edition, Ann Arbor Science Publishers, Ann Arbor, 1993, pp. 105–108. Search in Google Scholar

14. Yang, R.T.: Gas separation by adsorption processes; Butterworths, Boston, 1987, pp. 102–115. Search in Google Scholar

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