การปรับปรุงประสิทธิภาพกระบวนการแยกเมล็ดกระเจี๊ยบแดงออกจากผลโดยใช้เทคนิค ECRS Process Improvement of Separating Seeds Roselle Using ECRS Technique
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Published:
Jan 10, 2018
Keywords:
ECRS technique Roselle Seed Separation Process Roselle Seed Separation Machine
Main Article Content
Abstract
The performance of Roselle seed separation process was improved by ECRS (Eliminate, Combine, Rearrange, and Simplify) technique. This study aimed to reduce the time and the defect of this process by implement engineering techniques including work study, time study, cause and effect diagram and ECRS technique. The preliminary data has been collected. The current processing time of seed separation took 714.34 second per kilogram, and the productivity of 94.97 percentage. The analysis of cause and effect diagram presents that the problems of this study process were labor time consuming, and lack of supporting equipment. Therefore, the Roselle seed separation method was improved by the punching Roselle seed machine and ECRS technique. The result showed that the processing time took only 57.25 second per kilogram, and the productivity of 99.51 percentage. Finally, the study can increase the Roselle seed separation process efficiency to be 73.29 percentage
Article Details
How to Cite
Luesak, P., & Sanguanpang, S. (2018). การปรับปรุงประสิทธิภาพกระบวนการแยกเมล็ดกระเจี๊ยบแดงออกจากผลโดยใช้เทคนิค ECRS: Process Improvement of Separating Seeds Roselle Using ECRS Technique. Naresuan University Engineering Journal, 12(2), 41–54. Retrieved from https://ph01.tci-thaijo.org/index.php/nuej/article/view/75074
Section
Research Paper
References
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[3] Sritarathorn K., Phung-on I., Mounjun P., & Warinsiriruk E. (2010). Improvement of Efficiency in Biodegradable Packaging Process. The 2nd RMUTP International Conference, 278-282. (in Thai)
[4] Li-xin M., Hai-hong X., & Jian-bo Z. (2009). Assembly Process Reengineering Applied to Production Line Balancing. International Conference on Electronic Commerce and Business Intelligence, 95-98. doi:10.1109/ECBI. 2009.94
[5] Lan S., Wang X., & Li-xin M. (2009). Optimization of Assembly Line Based on Work Study. Industrial Engineering and Engineering Management International Conference 16, 813-816
[6] Dobrusskin C. (2016). On The Identification of Contradictions Using Cause Effect Chain Analysis. Procedia CIRP (39), 221–224
[7] Su H., Hu J, & Guo H. (2010). Submerged Arc Welding Procedure Improvement Based on Human-Machine Operation Analysis. International Conference on Information Management Innovation Management and Industrial Engineering 3, 486-489
[8] Pipatpanyanugoon K., Rakkhot S., Buaphan S., & Laolest A. (2015). The Productivity Improvement of a High and Low Voltage Products’ Factory. IE Network Conference, 292-297. (in Thai)
[9] Kritworakarn C. (2015). Wooden Furniture Process Improvement Using Motion and Time Study Technique. IE Network Conference, 266-270. (in Thai)
[10] Moontongchun S., & Yodpijit N. (2015). Productivity Improvement for Beverage Dispensing Machine. IE Network Conference, 404-409. (in Thai)
[11] Sun X. F., Cheng G., & Li W. (2009). Study on Work Improvement in a Packaging Machine Manufacturing Company. Industrial Engineering and Engineering Management International Conference 16, 1155-1159
[12] Wajanawichakon K., & Srimitee C. (2012). ECRS’s Principles for a Drinking Water Production Plant. IOSR Journal of Engineering 2(5), 956-960
[13] Sindhuja D., Mohandas Gandhi N., & Madhumathi P. (2012). Redesigning of Horn Assembly Line Using ECRS Principles. International Journal of Engineering and Innovative Technology (IJEIT) (3), 214-217. DOI:10.1109/ICIII.2010.123
[14] Pradhan R.C., Naik S.N., Bhatnagar N., & Vijay V.K. (2010). Design, Development and Testing of Hand-Operated Decorticator for Jatropha Fruit. Applied Energy 87, 762–768. doi:10.1016/j.apenergy. 2009.09.019
[15] Koya O.A., & Faborode M.O. (2006). Separation Theory for Palm Kernel and Shell Mixture on a Spinning Disc. Bio Systems Engineering 95(3), 405–412
[16] Eyarkai Nambi V., Thangavel K., & Manohar Jesudas D. (2012). A Pneumatic Assisted Electronically Controlled Continuous Aonla Seed Removing Machine. Agric Eng Int CIGR Journal 14(2), 94-101
[17] Ganvir A.P., & Awate P. (2015). Design & Development of Aonla Fruits Seed Removal& Shredding Machine. International Journal & Magazine of Engineering Technology Management and Research2(4), 192-195
[18] Sni Z., Dunyakul Y., Sirikun W., & Rojananukun J. (2011). Design and Development of Semi-Automatic Cashew Nut Sheller Machine. IE Network Conference, 1019-1024
[19] Rachavarn Kanjanapanyakom. (2009). Industrial Work Study. Bangkok: TOP, 258-261. (in Thai)