Optimization of Quality Improvement and Production Capacity at Prayogo's Chicken Slaughterhouse SME

Tonny Yuniarto; Paulus Wisnu  Anggoro; Baju Bawono

doi:10.28932/ice.v3i4.5577

Authors

Tonny Yuniarto Universitas Atma Jaya Yogyakarta
Paulus Wisnu Anggoro Department of Industrial Engineering, Faculty of Industrial Technology, Universitas Atma Jaya Yogyakarta
Baju Bawono Department of Industrial Engineering, Faculty of Industrial Technology, Universitas Atma Jaya Yogyakarta

DOI:

https://doi.org/10.28932/ice.v3i4.5577

Keywords:

chicken slaughterhouse, SME, community engagement, portable poultry machinery, production capacity

Abstract

Moyudan Subdistrict is an area that has several small industries of chicken farming. Partner who was the participant of this community service program, Prayogo’s Chicken Slaughterhouse, an SME in Yogyakarta, had a major obstacles to increase the production capacity of good, neat, clean, and hygienic chicken meat and meeting halal standards. In addition, this business still did not have chicken cutting standards according to factory standards (SNI 01-6160-1999). The cutting process was still done manually and conventionally, with mediocre quality and quantity. Production capacity was low, and many production operators experienced high fatigue in the hands and shoulders or experienced musculoskeletal fatigue. The expected transfer of technology in this program is the design of modifications to poultry cutting machines that suit the needs of this partner and is associated with the selection of portable poultry machine designs and manufacturing technologies that can later improve the quality and capacity of chicken meat processing according to halal standards. The results of this community service activity are; (1) one unit of portable poultry machine given to partner; (2) an increase in production capacity of 429% in terms of cutting capacity per day with smooth, precise, and accurate cutting quality; (3) reduced fatigue experienced by the production operators after the machine in operation. The chicken cutting capacity of Prayogo's Chickens Slaughterhouse can be increased by 4.29 times from 75 chickens a day to a maximum of 321 chickens a day.

References

Ahn, D. U. (2003). Use of chicken meat and processing technology. 2003 International Symposium of Korean Society of Poultry Science. pp. 69-78.

Chae, H. S., Ahn, J. N., Yoo, Y. M, Ham, J. S., Jeong, S. K. , Lee, J. M. et al. (2005). Effect of different stunning times on meat quality of broiler. Journal of Animal Science and Technology 47(6), 1017-1024. https://doi.org/10.5187/JAST.2005.47.6.1017

Choi, Y. I. & Ahn. J. N. (2004). Development of Breeding and Processing Techniques for High-Quality Broiler Meat Report. Gwacheon: Ministry for Food, Agriculture, Forestry and Fisheries

Crawford, M. & Di Benedetto, A. (2011). New Product Management. New York: McGraw-Hill Irwin

Hazenbroek, J. E. & De Vree, A. H. (2010). Method and Apparatus for Automatic Meat Processing. U.S. Patent No. 20100317272.

Heck, B. (2006). Automated chicken processing: machine vision and water-jet cutting for optimized performance. IEEE Control Systems Magazine 26(3). 17-19. https://doi.org/10.1109/MCS.2006.1636305

Kang, C. S. (2011). A cutting apparatus for chicken. Korea Patent No. 1020110050388 (in Korea).

Kaygisiz, F. & Cevger, Y. (2010). Effects of marketing chicken meat as a whole or cut up on enterprise income. Turkish Journal of Veterinary and Animal Sciences 34(1). 17-23.

Lee, J. T. & Kim, T. H. (2011). Studies on the development of a chicken feet-bone remover (I) - analysis of design factor with chicken feet-bone remover. Journal of Biosystems Engineering 36(4). 252-256. https://doi.org/10.5307/JBE.2011.36.4.252

Lee, J. T. & Kim, T. H. (2011). Studies on the development of a chicken feet-bone remover (II) - manufacture of chicken feet-bone remover. Journal of Biosystems Engineering 36(4). 257-266. https://doi.org/10.5307/JBE.2011.36.4.257

Song, D. B., Lee, S. K., & Jung, Y. K. (2003). Analysis of red pepper calyx cutting using a rotational cutter. Journal of the Korean Society for Agricultural Machinery 28(3). 209-216. http://doi.org/10.5307/JBE.2003.28.3.209

Ulrich, K.T. & Eppinger, S.D. (2016). Product Design and Development. New York: McGraw-Hill Education.