Global ETD Search

81	Alteration of moisture profiles in moving porous fabrics by impingement of high-velocity vapor streams Clark, J. L. (James L.) 12 1900 (has links) No description available. Paper Drying Drying apparatus Papermaking machinery
82	Solar food drying in Zambia Kwendakwema, Nicholas John. January 1983 (has links) No description available. Food -- Drying. Vegetables -- Drying. Solar energy -- Zambia.
83	A study of the influence of thermal drying on physical coal properties / M.J.G. Badenhorst. Badenhorst, Mathys Johannes Gerhardus January 2009 (has links) One of the major issues facing the coal industry today is the decline in economically recoverable reserves, especially in the Witbank 1 Mpumalanga region of South Africa. This necessitates a critical review of alternate coal sources. One such source was identified as previously discarded and currently arising coal fines. It is well known that great value lies within these fines, but that the high moisture content associated with fine coal leads to thermal inefficiencies, handling problems and increased transport cost. This study will investigate thermal drying as a feasible solution to effectively remove this moisture. During thermal drying coal is fed into a high temperature environment; this can influence the physical and mechanical properties of the coal. The effects include swelling, caking, cracking, loss of water, loss of volatiles, and many more. These effects are investigated by means of thennogravimetric analysis, scanning electron microscopy with a heating stage, proximate analysis and mercury intrusion. Coal samples with an average particle size of 500 um were selected for this study. It was found that: The rate of moisture loss up to temperatures between 150 and 200°C is at a maximum where after the rate declines up to temperatures between 350 and 450°C when primary devolatilisation initiates. No visual changes in the coal are observed up to temperatures between 350 and 450°C. A limited amount of volatiles evolve at a constant rate up to 250°C; this is not significant enough to decrease the calorific value of the coal. Porosity changes in the coal are observed from temperatures as low as 250°C. Thermal drying was found to be a feasible alternative to currently employed drying methods with 150°C selected as the optimal drying temperature. A thermal drying plant is proposed with recommendations for future work needed to realise such a plant. / Thesis (M.Ing. (Chemical Engineering))--North-West University, Potchefstroom Campus, 2010 Coal - Properties Thermal drying Thermal drying Inertinite
84	A study of the influence of thermal drying on physical coal properties / M.J.G. Badenhorst. Badenhorst, Mathys Johannes Gerhardus January 2009 (has links) One of the major issues facing the coal industry today is the decline in economically recoverable reserves, especially in the Witbank 1 Mpumalanga region of South Africa. This necessitates a critical review of alternate coal sources. One such source was identified as previously discarded and currently arising coal fines. It is well known that great value lies within these fines, but that the high moisture content associated with fine coal leads to thermal inefficiencies, handling problems and increased transport cost. This study will investigate thermal drying as a feasible solution to effectively remove this moisture. During thermal drying coal is fed into a high temperature environment; this can influence the physical and mechanical properties of the coal. The effects include swelling, caking, cracking, loss of water, loss of volatiles, and many more. These effects are investigated by means of thennogravimetric analysis, scanning electron microscopy with a heating stage, proximate analysis and mercury intrusion. Coal samples with an average particle size of 500 um were selected for this study. It was found that: The rate of moisture loss up to temperatures between 150 and 200°C is at a maximum where after the rate declines up to temperatures between 350 and 450°C when primary devolatilisation initiates. No visual changes in the coal are observed up to temperatures between 350 and 450°C. A limited amount of volatiles evolve at a constant rate up to 250°C; this is not significant enough to decrease the calorific value of the coal. Porosity changes in the coal are observed from temperatures as low as 250°C. Thermal drying was found to be a feasible alternative to currently employed drying methods with 150°C selected as the optimal drying temperature. A thermal drying plant is proposed with recommendations for future work needed to realise such a plant. / Thesis (M.Ing. (Chemical Engineering))--North-West University, Potchefstroom Campus, 2010 Coal - Properties Thermal drying Thermal drying Inertinite
85	Heat transfer prediction and drying potential in a solid medium with a flighted rotating drum Tessier, Sylvio, 1958- January 1982 (has links) No description available. Drying apparatus. Heat-transfer media. Grain -- Drying.
86	Foam-mat freeze drying of egg white and mathematical modeling Muthukumaran, Arun. January 1900 (has links) Thesis (M.Sc.). / Written for the Dept. of Bioresource Engineering. Title from title page of PDF (viewed 2007/08/30). Includes bibliographical references.
87	Drying of granular materials using an induction heated double-screw conveyor Martel, Sylvain, 1980- January 2008 (has links) No description available. Screw conveyors. Granular materials -- Drying. Drying apparatus.
88	Solar food drying in Zambia Kwendakwema, Nicholas John. January 1983 (has links) No description available. Food -- Drying. Solar energy -- Zambia. Vegetables -- Drying.
89	Heat transfer prediction and drying potential in a solid medium with a flighted rotating drum Tessier, Sylvio, 1958- January 1982 (has links) No description available. Drying apparatus. Heat-transfer media. Grain -- Drying.
90	Dehydration and rehydration of apples Singh, Harsharan Jit January 2011 (has links) Digitized by Kansas State University Libraries Food--Preservation Fruit--Drying

Search results