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Bhardwaj, Sushant
- Performance Evaluation of Desiccant Seed Dryer for Drying Fenugreek (Trigonella Foenum-graecum) Seeds
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Authors
Affiliations
1 Department of Processing and Food Engineering, COAE&T, CCS Haryana Agricultural University, Hisar, Haryana, IN
2 Department of Renewable & Bioenergy Engineering, CCSHAU Hisar, Haryan, IN
3 Extension Education Institute, Nilokheri, Haryana, IN
4 Department of Processing and Food Engineering COAE&T, CCS Haryana Agricultural University, Hisar, Haryana, IN
5 College of Agricultural Engineering & Technology, CCSHAU, Hisar, Haryana, IN
1 Department of Processing and Food Engineering, COAE&T, CCS Haryana Agricultural University, Hisar, Haryana, IN
2 Department of Renewable & Bioenergy Engineering, CCSHAU Hisar, Haryan, IN
3 Extension Education Institute, Nilokheri, Haryana, IN
4 Department of Processing and Food Engineering COAE&T, CCS Haryana Agricultural University, Hisar, Haryana, IN
5 College of Agricultural Engineering & Technology, CCSHAU, Hisar, Haryana, IN
Source
International Journal of Education and Management Studies, Vol 8, No 2 (2018), Pagination: 249-252Abstract
In this study fenugreek (Trigonella foenum-graecum) seeds of variety HM-57 were dried in solar regenerated desiccant seed dryer. In this dryer, seeds can be dried in deep bed at a safe temperature for good shelf-life, germination and vigour index. The dryer has following significance over common methods of drying, generally vegetable seeds are dried in shade, which has very low drying rate and can be harmful to the seeds. Under natural drying conditions, micro organisms may develop, as moisture takes longer to be removed. Also in natural drying seeds holds moisture for longer period than advisable, due to this there is acceleration in respiration rate which causes a C02 release and water vapour and causes a significant decrease in physiological quality of seeds. The dryer has two chambers i.e. air conditioning chamber and seed drying chamber. It operates in seed drying and desiccant regeneration mode. Moisture removal from drying air has been done using silica gel desiccant. Fenugreek were dried with hot and dehumidified air at five different drying air temperatures i.e. 3 8, 40,42,44 and 46° C and at five different air flow rates i.e., 1,1.2,1.4,1.6 and 1.8 m3/min.. Germination percentage of fenugreek seeds varied from 78 - 67% as temperature varied between 38-46° C, and vigour index varied from 1349.4 - 911.2. After this study, dryer was found to be better alternative for drying high priced vegetable seeds.Keywords
Desiccant Drying, Germination Percentage, Regeneration, Vigour Index.References
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- Charkraverty,A. (2008). Post harvest technology of cereals, pulses and oilseeds. Oxford and IBH Publishing Co. Pvt. LtdNewDelhi
- Christinal, V, & Tholkkappian, P. (2012). Seed quality in chilli influenced by the different types of drying methods. International Journal of Recent Scientific Research, 3(9), 766-770.
- Dhaliwal, S.S., Singh, S., Singh, P.P. (2009). Design and development of compact seed dryer. Agricultural Mechanization in Asia, Africa, and Latin America, 40(4), 75-80.
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- Philpot, R. (1976). Principle and practices of drying. Miss. State University Snot Course, Seeds, MesssProceedings, 16, 23-40.
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- Energy Auditing in a Dairy Farm, School and Temple Complex in Hisar District, Haryana, India
Abstract Views :230 |
PDF Views:1
Authors
Affiliations
1 Department ofProeessing and Food Engineering, COAE&T, CCS Haryana Agrieultnral University, Hisar, Haryana, IN
2 Department of Renewable & Bioenergy Engineering, CCS Haryana Agrieultnral University, Hisar, Haryana, IN
3 Department of Proeessing and Food Engineering, COAE&T, CCS Haryana Agrieultnral University, Hisar, Haryana, IN
4 Extension Edueation Institute Nilokheri, IN
5 Department ofProeessing and Food Engineering COAE&T, CCS Haryana Agrieultural University, Hisar, Haryana, IN
1 Department ofProeessing and Food Engineering, COAE&T, CCS Haryana Agrieultnral University, Hisar, Haryana, IN
2 Department of Renewable & Bioenergy Engineering, CCS Haryana Agrieultnral University, Hisar, Haryana, IN
3 Department of Proeessing and Food Engineering, COAE&T, CCS Haryana Agrieultnral University, Hisar, Haryana, IN
4 Extension Edueation Institute Nilokheri, IN
5 Department ofProeessing and Food Engineering COAE&T, CCS Haryana Agrieultural University, Hisar, Haryana, IN
Source
Indian Journal of Health and Wellbeing, Vol 9, No 6 (2018), Pagination: 886-891Abstract
In the present study Shri Devi Bhavan Dairy farm Complex was selected for the energy auditing. It consists of three sections (i) Dairy farm, (ii) School, (iii) Temple Complex. The survey was carried out for the basic data collection regarding energy demands and resources availability in all the sections. The data was analyzed for determining total energy demand and resources availability in all sections. The survey of major activities related to use of thermal, electrical, mechanical and human energy was conducted and total energy demand and energy use pattern was also studied in this selected area. The data for energy demands and resource availability in Devi Bhavan Dairy farm Complex were collected with the help of well structured questionnaire developed for the purpose. The type of energy sources utilized in the dairy farm complex was electrical, thermal, mechanical and manual. The electrical energy was the only source of energy used in School and Temple Complex. The value of manual, electrical, thermal and mechanical energy required per month for dairy farm was 5997.6, 1509.2, 27600 and 9540 MJ/Month respectively. In case of school and temple complex demand of electrical energy per month was 2216.16 and 5715.36 MJ/Month respectively.Keywords
Energy Auditing, Electrical Energy, Dairy Farm, School and Temple.References
- Desai, D.D., Raol, J.B., Patel, S., & Chauhan, I. (2013). Application of solar energy for sustainable dairy development. European Journal of Sustainable Development, 2(4), 131-140. ISSN: 2239-5938.
- Hima, B., Subrahmanyam, D.S. E. V., & Bhat, M. S. (2014). SWOT analysis of dairy industry in India IntemationalJoumal of Scientific Research, 5(1), 249-251. ISSN No 2277 8179.
- Kaur, H., & Kaur, K. (2012). Energy conservation: An effective way of energy utilization. International .Journal of Management in Education (IJMIE), 2(5), 623637. ISSN: 2249-0558.
- Modi, A., & Prajapat, R. (2014). Pasteurization process energy optimization for a milk dairy plant by energy audit approach. International Journal of Scientific and Technology Research (IJSTR), 5(6), 181-188. ISSN2277-8616.
- Panchal, M. J., Dwivedi, D.V.V., & Apamathi, R. (2014). The case study of energy conservation and audit in industry sector. International Journal of Engineering and Computer Science, 3(4),5298-5303. ISSN:2319-7242.
- Sefeedpari, P. (2012). Assessment and optimization of energy consumption in dairy farm: Energy efficiency. Iranica .Journal of Energy and Environment (IJEE), 5(3), 213-224. ISSN2079-2115.
- Vijayan, I.N., & Mastorakis, E. (2006). Energy conservation measures in dairy industries. Proceedings of the 4th WSEAS. International Conference on Fluid Mechanics andAerodynamics, Elounda, Greece, pp. 435-444.
- Development of a Computer Programme for Cost Economics of Processing Equipments
Abstract Views :198 |
PDF Views:0
Authors
Affiliations
1 Department ofProeessing and Food Engineering, COAE&T, CCS Haryana Agrieultural University, Hisar, IN
1 Department ofProeessing and Food Engineering, COAE&T, CCS Haryana Agrieultural University, Hisar, IN
Source
Indian Journal of Health and Wellbeing, Vol 9, No 5 (2018), Pagination: 786-788Abstract
The mechanization provides an opportnnity to rural youth for entrepreneurship development through custom hiring of improved farm machines, processing machines, providing repair and maintenance facilities/ Farm machinery service centers. But there is need to educate the village youth in proper utilization, operation, repair and maintenance of the machines. In the present work program was made in dot net language which will be very helpful in guiding the famers about cost economics of any farm machines. As rural economy is agriculture based, the development in the rural sector will be possible through engineering interventions in agriculture. Introduction of need based gender triendly farm tools and equipment, agro-processing machines, suitable water saving technologies, viz., drip and sprinklers, farm ponds and solar gadgets will be very helpful in upliftment of the rural economy. The awareness about the new technologies and their technical know-how will also be the key points for upliftment of the farmers.Keywords
Computer Programme, Cost Economics, Processing Machine.References
- Ali, N., Patra, S.K., & Lall, R.R. (1979). Catalogue of improved agricultural tools, implements and equipment of India. Tech. Bull. CIAE/79/5, CIAE, Bhopal.
- Annon;ymus (1979). Indian standard guide for estimating cost of farm machinery operation. IS:9164-1979. Indian Standard Institution New Delhi.
- Bankable post harvest equipment developed in India. Central Institute Of Agricultural Engineering Bhopla, (MP) India.