Thermal properties of dairy cattle manure

International Agrophysics

Volumn 23, Issue 4, 2009, Pages 359-366

  Nayyeri, M A ^a   Kianmehr, M H ^a   Arabhosseini, A ^a   Hassan Beygi, S R ^a  

^a UNIVERSITY OF TEHRAN   (Iran)

Author keywords

Dairy cattle manure; Specific heat; Thermal conductivity; Thermal diffusivity

Indexed keywords

CHEMICAL COMPOSITION; DIFFUSIVITY; MANURE; MOISTURE CONTENT; TEMPERATURE EFFECT; THERMAL CONDUCTIVITY;

BOS;

EID: 77952132224     PISSN: 02368722     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

References (31)

1. Aghbashlo M., Kianmehr M.H., and Hassan-Beygi S.R., 2008. Specific heat and thermal conductivity of berberis fruit (Berberis vulgaris). Am. J. Agric. Biol. Sci., 3(1 ), 330-336.
2. ASAE Standards, 2002. S385.2. Moisture Measurement-Forages. St. Joseph, MI, USA.
3. Aviara N.A., Haque M.A., and Ogunjiini L.A.O., 2008. Thermal properties of guna seed. Int. Agrophysics, 22,291-297.
4. Božiková M., 2005. Thermophysical parameters of chosen granular samples. Int. Agrophysics, 19, 203-207.
5. Burton C.H., 1997. Manure Management - Treatment Strategies for Sustainable Agriculture. Silsoe Inst. Press, Bedford, UK.
6. Casada M.E. and Walton L.R., 1989. Thermal conductivity of baled burley tobacco. Trans. ASAE, 32(2), 977-982.
7. Chandrasekar V. and Viswanathan R., 1999. Physical and thermal properties of coffee. J. Agric. Eng. Res., 73, 227-234.
8. El-Ahraf A. and Willis W.V., 1996. Management of Animal Waste: Environmental Health Problems and Technological Solutions. Praeger Press, Westport, USA.
9. lhara I., Umetsu K., Kanamura K., and Watanabe T., 2006. Electrochemical oxidation of the effluent from anaerobic digestion of dairy manure. Bioresource Technol., 97, 1360-1364.
10. Iwabuchi K., Kimurab T., and Otten L., 1999. Effect of volumetric water content on thermal properties of dairy cattle feces mixed with sawdust. Bioresource Technol., 70, 293-297.
11. Gomez K. and Gomez A.A., 1984. Statistical Procedures for Agricultural Research. Wiley Press, New York, USA.
12. Kazarian E.A. and Hall C.W., 1965. The thermal properties of grain. Trans. ASAE, 8(1), 33-40.
13. Lisowa H., Wujec M., and Lis T., 2002. Influence of temperature and variety on the thermal properties of apples. Int. Agrophysics, 16,43-52.
14. Loklari E.E., Galloway W.D., and Samfield M., 1957. The thermal conductivity of tobacco. Tobacco Sci., 28,28-32.
15. Martínez-Monzó J., Barat J.M., González- Martínez C., Chiralt A., and Fito P., 2000. Changes in thermal properties of apple due to vacuum impregnation. J. Food Eng., 43,213-218.
16. Mohsenin N.N., 1980. Thermal Properties of Foods and Agricultural Materials. Gordon-Breach Press, New York, USA.
17. Murakami E.G. and Okos M.R., 1988. Measurement and prediction of thermal properties of foods. In: Food Properties and Computer-aided Engineering of Food Processing Systems (Eds P.R. Singh, A.G. Medina). Kluwer Academic Press, Boston, MA, USA.
18. Muramatsu Y., Tagawa A., Sakaguchi E., and Kasai T., 2008. Prediction of thermal conductivity of kernels and a packed bed of brown rice. J. Food Eng., 80,241-248.
19. Njie D.N., Rumsey T.R., and Singh R.P., 1998. Thermal properties of cassava, yam and plantain. J. Food Eng., 37,63-76.
20. Razavi S.M.A. and Taghizadeh M., 2007. The specific heat of pistachio nuts as affected by moisture content, temperature, and variety. J. Food Eng., 79, 158-167.
21. Shepherd H. and Bhardwaj R.K., 1986. Thermal properties of pigeon pea. Cereal Foods World, 31,466-470.
22. Shrivastava M. and Datta A.K., 1999. Determination of specific heat and thermal conductivity of mushrooms (Pleurotus forida). J. Food Eng., 39,255-260.
23. Singh K.K. and Goswami T.K., 2000. Thermal properties of cumin seed. J. Food Eng., 45, 181-187.
24. Sreenarayanan V.V. and Chattopadhyay P.K., 1986. Specific heat of rice bran. Agric. Wastes, 16,217-224.
25. Subramanian S. and Viswanathan R., 2003. Thermal properties of minor millet grains and flours. Biosys. Eng., 84(3), 289-296.
26. Tabil L.G., 1999. Specific Heat of Agricultural and Food Materials. Res. Report, Department of Agricultural and Bioresource Engineering, University of Saskatchewan, Canada.
27. Tansakul A. and Lumyong R., 2008. Thermal properties of straw mushroom. J. Food Eng., 87,91-98.
28. Tocci A.M. and Mascheroni R.H., 2008. Some thermal properties of fresh and osmotic ally dehydrated kiwifruit above and below the initial freezing temperature. J. Food Eng., 88, 20-27.
29. Wratten F.T., Poole W.D., Chesness J.L., Bal S., and Ramarao V., 1969. Physical and thermal properties of rough rice. Trans. ASAE, 12(6), 801-803.
30. Yang W., Siebenmorgen T.J., Thielen T.P.H., and Cnossen A.G., 2003. Effect of glass transition on thermal conductivity of rough rice. Biosys. Eng., 84(2), 193-200.
31. Yang W., Sokhansanj S., Tang J., and Winter P., 2002. Determination of thermal conductivity, specific heat and thermal diffusivity of borage seeds. Biosys. Eng., 82(2), 169-176.