Energy Utilization and Environmental Aspects of Rice Processing Industries in Bangladesh

In this study, the energy utilization and environmental aspects of the rice processing industries in Bangladesh was analyzed. Rice husk, a milling by-product of rice, is used as a source of thermal energy to produce steam for parboiling of raw rice. The rice is mostly dried on a concrete floor under the sunshine. In mechanical drying, rice husks are used as a source of primary energy. In Bangladesh, the annual estimated energy used in 2000 for the drying of rice by sunshine was 10.7 million GJ and for drying and parboiling by rice husks it was 48.2 million GJ. These amounts will increase to 20.5 and 92.5 million GJ in 2030, respectively. Electrical energy consumption for mechanical drying and milling of rice was calculated as 1.83 million GJ e and 3.51 million GJ e in 2000 and in 2030, respectively. Biogenic carbon dioxide emission from burning of rice husk is renewed every year by the rice plant. Both the biogenic and non-biogenic carbon dioxide emissions in 2000 were calculated as 5.7 and 0.4 million tonnes, respectively, which will increase to 10.9 and 0.7 million tonnes in 2030. The demand of energy for rice processing increases every year, therefore, energy conservation in rice processing industries would be a viable option to reduce the intensity of energy by increasing the efficiency of rice processing systems which leads to a reduction in emissions and an increased supply of rice husk energy to other sectors as well.

[1]  Carlo del Ninno,et al.  Public Policy, Markets and Household Coping Strategies in Bangladesh: Avoiding a Food Security Crisis Following the 1998 Floods , 2003 .

[2]  R. Paul Singh,et al.  KINETICS OF WATER DIFFUSION AND STARCH GELATINIZATION DURING RICE PARBOILING , 1980 .

[3]  N. Meeso,et al.  Effect of Soaking Temperature on Physical, Chemical and Cooking Properties of Parboiled Fragrant Rice , 2008 .

[4]  W. R. Aykroyd,et al.  Wheat in human nutrition. , 1970, FAO nutritional studies.

[5]  Takeo Shiina,et al.  Energy consumption and cost analysis of local parboiling processes , 2006 .

[6]  B. O. Juliano,et al.  Rice in human nutrition. , 1993 .

[7]  J. Yudkin Human Nutrition , 1961, Nature.

[8]  Takeo Shiina,et al.  Life-cycle inventory analysis of local parboiling processes. , 2005 .

[9]  M. Ahiduzzaman,et al.  Rice Husk Energy Technologies in Bangladesh , 2007 .

[10]  B. O. Juliano,et al.  Effect of parboiling on thiamin, protein and fat of rice. , 1974, Journal of the science of food and agriculture.

[11]  Prem Prakash Srivastav,et al.  Parboiling of dehusked rice , 1999 .

[12]  C. Fontana,et al.  DRYING IN COMMERCIAL RICE PARBOILING PLANTS , 1983 .

[13]  J. Sangha,et al.  Effect of processing on thiamin and riboflavin contents of some high‐yielding rice varieties of punjab , 1990 .

[14]  H. P. Garg,et al.  RICE PROCESSING IN INDIA: A GENERALIZED FRAMEWORK FOR ENERGY DEMAND ESTIMATION , 1997 .

[15]  Peter Knoef Harrie Stassen Hubert Quaak,et al.  Energy from Biomass: A Review of Combustion and Gasification Technologies , 1999 .

[16]  R. Williams,et al.  The nutritional improvement of white rice. , 1945 .