李鹏鹏，等                                                                水产学报, 2025, 49(11): 119618

              长期使用的稳定性和可靠性需进一步优化。滩                                  Journal of Biosystems Engineering, 2009, 34(2): 95-105.
              涂贝类变量播苗装置还存在着很多不足，在今                            [  8  ]   Grift T E, Kweon G. Development of a uniformity controlled
              后的研究开发中，拟对落苗速率控制方程进行                                  granular  fertilizer  spreader[C]//ASAE.  2006  Annual  Meeting,
              仿真及滩涂试验标定，提高落苗装置控制精度；                                 St. Joseph, USA: ASAE, 2006: 1.
              优化控制系统软硬件，进一步提高系统稳定和                            [  9  ]   Grift T E. Spread pattern analysis tool (SPAT): I. Development
              实时控制精度。                                               and theoretical examples[J]. Transactions of the ASAE, 2000,

                                                                    43(6): 1341-1350.
              参考文献     (References)：                          [10]   Grift T E, Crespi C M. Estimation of the flow rate of free fall-

              [  1  ]   林志华, 何琳, 董迎辉. 浙江滩涂贝类种业科技创新发展及展              ing granular particles using a Poisson model in time[J]. Biosys-
                    望  [J]. 水产学报, 2023, 47(1): 019608.              tems Engineering, 2008, 101(1): 36-41.
                    Lin Z H, He L, Dong Y H. Development and prospect for sci-  [11]   Iida M, Umeda M, Radite P A S. Variable rate fertilizer applic-
                    entific and technological innovation of mudflat mollusk breed-  ator for paddy field[C]//ASAE. Annual International Meeting of
                    ing industry in Zhejiang[J]. Journal of Fisheries of China, 2023,  the  American  Society  of  Agricultural  Engineers,  Sacramento,
                    47(1): 019608 (in Chinese).                     USA: ASAE, 2001: 1-13.
              [  2  ]   农业农村部渔业渔政管理局, 全国水产技术推广总站, 中国          [12]   张睿, 王秀, 赵春江, 等. 链条输送式变量施肥抛撒机的设计
                    水产学会. 2024  中国渔业统计年鉴  [M]. 北京: 中国农业出版           与试验  [J]. 农业工程学报, 2012, 28(6): 20-25.
                    社, 2024.                                        Zhang R, Wang X, Zhao C J, et al. Design and experiment of
                    Fishery and Fishery Administration Bureau of the Ministry of  variable rate fertilizer spreader with conveyor chain[J]. Transac-
                    Agriculture  and  Rural  Affairs,  National  Fisheries  Technology  tions of the Chinese Society of Agricultural Engineering, 2012,
                    Extension Center, China Society of Fisheries. 2024 China fish-  28(6): 20-25 (in Chinese).
                    ery  statistical  yearbook[M].  Beijing:  China  Agriculture  Press,  [13]   陈书法, 张石平, 孙星钊, 等. 水田高地隙自走式变量撒肥机
                    2024 (in Chinese).                              设计与试验   [J]. 农业工程学报, 2012, 28(11): 16-21.
              [  3  ]   袁华, 沈辉, 王李宝, 等. 菲律宾蛤仔滩涂生态养殖技术   [J].        Chen S F, Zhang S P, Sun X Z, et al. Design and experiment of
                    水产科技情报, 2014, 41(1): 54-56.                     self-propelled high-ground- clearance spreader for paddy vari-
                    Yuan H, Shen H, Wang L B, et al. Ecological culture techno-  able-rate fertilization[J]. Transactions of the Chinese Society of
                    logy of Ruditapes philippinarum on tidal flats[J]. Fisheries Sci-  Agricultural Engineering, 2012, 28(11): 16-21 (in Chinese).
                    ence  &  Technology  Information,  2014,  41(1):  54-56  (in  [14]   陈满, 汪小旵, 孙国祥, 等. 冬小麦精准播种施肥控制系统研
                    Chinese).                                       究  [J]. 中国农机化学报, 2016, 37(9): 24-27,42.
              [  4  ]   刘世晶, 李国栋, 刘晃, 等. 中国水产养殖装备发展现状   [J].        Chen M, Wang X C, Sun G X, et al. Study on control system of
                    水产学报, 2023, 47(11): 119615.                     precise  seeding  and  fertilizing  for  winter  wheat[J].  Journal  of
                    Liu S J, Li G D, Liu H, et al. Current development status of  Chinese Agricultural Mechanization, 2016, 37(9): 24-27,42 (in
                    aquaculture  equipment  in  China[J].  Journal  of  Fisheries  of  Chinese).
                    China, 2023, 47(11): 119615 (in Chinese).  [15]   施印炎, 陈满, 汪小旵, 等. 离心匀肥罩式水稻地表变量撒肥
              [  5  ]   李纯厚, 齐占会. 中国渔业生态环境学科研究进展与展望     [J].        机设计与试验   [J]. 农业机械学报, 2018, 49(3): 86-93,113.
                    水产学报, 2023, 47(11): 119311.                     Shi Y Y, Chen M, Wang X C, et al. Design and experiment of
                    Li C H, Qi Z H. Ecological and environmental research in fish-  variable-rate  fertilizer  spreader  with  centrifugal  distribution
                    ery waters of China: current status and prospects[J]. Journal of  cover for rice paddy surface fertilization[J]. Transactions of the
                    Fisheries of China, 2023, 47(11): 119311 (in Chinese).  Chinese  Society  for  Agricultural  Machinery,  2018,  49(3):  86-
              [  6  ]   Kweon G, Grift T E. Feed gate adaptation of a spinner spreader  93,113 (in Chinese).
                    for uniformity control[J]. Biosystems Engineering, 2006, 95(1):  [16]   黄伟. 离心式贝类播苗设备设计与试验研究  [D]. 大连: 大连
                    19-34.                                          海洋大学, 2022.
              [  7  ]   Kweon G, Grift T E, Miclet D, et al. Analysis and control of  Huang W. Design and experimental study of centrifugal shell-
                    uniformity by the feed gate adaptation of a granular spreader[J].  fish seeding device[D]. Dalian: Dalian Ocean University, 2022

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