과제정보
본 결과물은 농림축산식품부의 재원으로 농림식품기술기획평가원의 기술사업화지원사업의 지원을 받아 연구되었음(817040-3, 122047-03).
참고문헌
- Choudhary S, Upadhyay G, Patel B, Naresh, Jain M. 2021. Energy requirements and tillage performance under different active tillage treatments in sandy loam soil. Journal of Biosystems Engineering 46:353-364. https://doi.org/10.1007/s42853-021-00112-y
- Esgici R, Pekitkan FG, Sessiz A. 2019. Correlation between rice stem cutting resistance and cracking force of rice kernel. Fresenius Environmental Bulletin 28:3014-3021.
- Galedar MN, Tabatabaeefar A, Jafari A, Sharifi A, Rafiee S. 2008. Bending and shearing characteristics of alfalfa stems. Agricultural Engineering International: The CIGR Ejournal Volume X: Manuscript FP 08 001.
- Ince A, Ugurluay S, Guzel E, Ozcan MT. 2005. Bending and shearing characteristics of sunflower stalk residue. Biosystems Engineering 92:175-181. https://doi.org/10.1016/j.biosystemseng.2005.07.003
- Jeong SJ, Shin DS. 2022. 2022 combine harvester market forecast. Accessed in http://www.alnews.co.kr/news/articleView.html?idxno=7223 on 25 August 2022. [in Korean]
- Kim TJ, Kim WS, Kim YS, Chung SO, Park SU, Hong SJ, Choi CH, Kim YJ. 2019. Strength analysis of mechanical transmission using equivalent torque of plow tillage of an 82 kW-class tractor. Korean Journal of Agricultural Science 46:723-735. [in Korean] https://doi.org/10.7744/kjoas.20190048
- KOSIS (Korean Statistical Information Service). 2022. Nationwide (province) farmed area. KOSIS, Daejeon, Korea. [In Korean]
- Kushwaha RL, Vaishnav AS, Zoerb GC. 1983. Shear strength of wheat straw. Canadian Agricultural Engineering 25:163-166.
- Lee JH, Kim WS, Baek SM, Kang YS, Lee DH, Kim YJ. 2020b. Performance evaluation of threshing efficiency for combine harvester according to threshing drum speed harvester. Journal of Drive and Control 12:33-35. [in Korean]
- Lee NG, Kim YJ, Baek SM, Moon SP, Park SU, Choi YS, Choi CH. 2020a. A study on the improvement of transmission error and tooth load distribution using micro-geometry of compound planetary gear reducer for tractor final driving shaft. Journal of Drive and Control 17:133-140. [in Korean] https://doi.org/10.7839/KSFC.2020.17.4.133
- Liu Y, Li Y, Chen L, Zhang T, Liang Z, Huang M, Su Z. 2021. Study on performance of concentric threshing device with multi-threshing gaps for rice combines. Agriculture 11:1000.
- Liu Y, Li Y, Dong Y, Huang M, Zhang T, Cheng J. 2022. Development of a variable-diameter threshing drum for rice combine harvester using MBD-DEM coupling simulation. Computer and Electronics in Agriculture 196:106859.
- Saha KK, Hossain A, Hoque MA, Jahan MAHS, Ahmed S, Timsina J. 2021. Development and performance evaluation of a two-wheeled power-tiller multi-row weeder. Journal of Biosystems Engineering 46:36-47. https://doi.org/10.1007/s42853-021-00086-x
- Seo SW, Lee SW, Huh YK. 2006. Threshing performance dependent upon feed rate and threshing drum length for head-feed combine. Journal of Agricultural Science 33:159-166. [in Korean]
- Shafaei SM, Loghavi M, Kamgar S. 2021. Analytical description of power delivery efficiency of front wheel assist tractor in tillage works. Journal of Biosystems Engineering 46:236-253. https://doi.org/10.1007/s42853-021-00103-z
- Siddique MAA, Kim WS, Baek SY, Kim YJ, Park SU, Choi CH, Choi YS. 2020. Analysis of the axle load of a rice transplanter according to gear selection. Journal of Drive and Control 17:125-132. https://doi.org/10.7839/KSFC.2020.17.4.125
- Su Z, Li Y, Dong Y, Tang Z, Liang Z. 2020. Simulation of rice threshing performance with concentric and non-centric threshing gaps. Biosystems Engineering 197:270-284. https://doi.org/10.1016/j.biosystemseng.2020.05.020
- Wang Q, Mao H, Li Q. 2020. Modelling and simulation of the grain threshing process based on the discrete element method. Computers and Electronics in Agriculture 178:105790.
- Woo JK, Choi IS, Kim YK, Choi Y, Choi DK, Lee HS, Kim JT, Park YJ, Kim JD. 2023. Design and performance evaluation of a variable control type fresh corn harvester. Journal of Drive and Control 20:40-46. https://doi.org/10.7839/KSFC.2023.20.2.040
- Zhang S, Tekeste MZ, Li Y, Gaul A, Zhu D, Liao J. 2020. Scaled-up rice grain modelling for DEM calibration and the validation of hopper flow. Biosystems Engineering 194:196-212. https://doi.org/10.1016/j.biosystemseng.2020.03.018