1 |
Kim OS, Hwang DJ and Yoo GB. 2019. Introduction to marine production machinery. Green Office Supplies, Korea, 123-124.
|
2 |
So JD and Wheaton FW. 1996. Computer vision control system for an oyster hinge breaker. Applied engineering in agriculture 12, 513-518.
DOI
|
3 |
Hwang DJ, Kang TJ, Min EB and Kim OS. 2020. Performance evaluation of a raw oyster and shell an automatic separator using ultra-high pressure. The summary of the 2020 Korean Society of Fisheries and Ocean Technology's Spring Presentation Conference, 43-46.
|
4 |
Kim HE, Lee GC and Kim JH. 2010. A Study of the Variation in Intensifier Performance Characteristics Varying with Pressure and Temperature. The Korean Society of Mechanical Engineers-A 34, 1249-1255. https://doi.org/10.3795/KSME-A.2010.34.9.1249.
DOI
|
5 |
Sato A, Yoshida M and Fukuoka N. 1997. A heating device before separation from the Bivalvia shucking methods and devices. Publication No. 1997-094053. Japan, 51-56.
|
6 |
Story AG, Conlon TP and Wheaton FW. 1974. Electro-optical control for oyster hinge breaker. Transactions of the American Society of Agriculture Engineers 17, 937-941. https://doi.org/10.13031/2013.37002.
DOI
|
7 |
Wheaton FW. 1973. Oyster shucking studies, Publication No. MP862. Project No.3-152-D. Maryland, Agiculture Experimenttation Station, University of Maryland, College Park, Maryland, 41-45.
|
8 |
Min EB, Hwang DJ, Yoon EA, Kim OS and Yoo GB. 2018. Evaluating shucking performance of an ultra-high-pressure shucking machine and change in the sensory, biological and chemical properties of raw oysters (Crassostrea gigas) shucked by ultra-high-pressure. KOFFST, 220.
|