Journal of Scientific and Industrial Research

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Energetic Assessment of Different Paddy Straw Densification Processes


Affiliations
1 Department of Farm Machinery & Power Engineering, CCS Haryana Agricultural University, Hisar 125 004, India
 

Densification and handling of crop residue, especially paddy straw is a critical issue due to very high moisture content as well as relative humidity and abundant amount. In the present study, different densification processes using field balers and stationary balers were evaluated in chopped and full-length paddy straw. In the study, it was found that minimum energy was required for T1 (50.16 MJ∙t−1) followed by T2 (102.65 MJ∙t−1), T3 (117.57 MJ∙t−1), T4 (144.53 MJ∙t−1) and T5 (152.53 MJ∙t−1). There was a significant (p < 0.0001) variation in energy consumption between the different techniques used in the research. The scented variety of rice is mostly harvested manually. The densification of full-length paddy straw by a hydraulic press type fixed baler was found appropriate with baling capacity (1.13 tꞏh−1), lowest energy requirement (50.16 MJꞏt−1), and volume compaction ratio (6.87). In the case of combine harvested paddy, treatment T2 was found most appropriate with maximum field capacity (0.54 haꞏh−1), bailing capacity (4.43 tꞏh−1), and volume compaction ratio (5.26). Treatment T2 also has a minimum man-hour time requirement for straw handling and bailing (3.57 man-hꞏt−1) out of which bailing of straw takes 0.44 hꞏt−1 and consumes 102.65 MJꞏt−1 energy. Based on the present study the farmer can decide the best densifying method for paddy straw among the selected treatments. Thus, the outcomes of the research will be helpful for the aligned industry as well for the farmer.

Keywords

Baler, Energy, Hey rake, Residue, Straw management, Stubble.
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  • Energetic Assessment of Different Paddy Straw Densification Processes

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Authors

Hemant Kumar
Department of Farm Machinery & Power Engineering, CCS Haryana Agricultural University, Hisar 125 004, India
Parveen Dhanger
Department of Farm Machinery & Power Engineering, CCS Haryana Agricultural University, Hisar 125 004, India
Vijaya Rani
Department of Farm Machinery & Power Engineering, CCS Haryana Agricultural University, Hisar 125 004, India
Mukesh Jain
Department of Farm Machinery & Power Engineering, CCS Haryana Agricultural University, Hisar 125 004, India

Abstract


Densification and handling of crop residue, especially paddy straw is a critical issue due to very high moisture content as well as relative humidity and abundant amount. In the present study, different densification processes using field balers and stationary balers were evaluated in chopped and full-length paddy straw. In the study, it was found that minimum energy was required for T1 (50.16 MJ∙t−1) followed by T2 (102.65 MJ∙t−1), T3 (117.57 MJ∙t−1), T4 (144.53 MJ∙t−1) and T5 (152.53 MJ∙t−1). There was a significant (p < 0.0001) variation in energy consumption between the different techniques used in the research. The scented variety of rice is mostly harvested manually. The densification of full-length paddy straw by a hydraulic press type fixed baler was found appropriate with baling capacity (1.13 tꞏh−1), lowest energy requirement (50.16 MJꞏt−1), and volume compaction ratio (6.87). In the case of combine harvested paddy, treatment T2 was found most appropriate with maximum field capacity (0.54 haꞏh−1), bailing capacity (4.43 tꞏh−1), and volume compaction ratio (5.26). Treatment T2 also has a minimum man-hour time requirement for straw handling and bailing (3.57 man-hꞏt−1) out of which bailing of straw takes 0.44 hꞏt−1 and consumes 102.65 MJꞏt−1 energy. Based on the present study the farmer can decide the best densifying method for paddy straw among the selected treatments. Thus, the outcomes of the research will be helpful for the aligned industry as well for the farmer.

Keywords


Baler, Energy, Hey rake, Residue, Straw management, Stubble.

References