Journal of Radiation Research and Radiation Processing, Volume. 42, Issue 5, 050701(2024)
Development and application of cobalt source layout interface program for gamma irradiation device
[2] Lei YANG. Study on optimal design methods for the radiation field of gamma irradiation facilities(2016).
[3] Shengyu WU, Gang XIAO. Discussion on the point kernel integral method for calculating gamma dose field. Science and Technology & Innovation, 33-34(2018).
[4] C H Pyne, M J Comben. Use of validation dosimetry, in source rack load planning, to improve cobalt irradiation plant efficiency. Radiation Physics and Chemistry, 63, 785-788(2002).
[5] Hui JIN, Qinglong CHEN. Computer code for dosimetry simulation of a 60Co irradiator. Journal of Radiation Research and Radiation Processing, 21, 247-250(2003).
[6] Peng LEI, Zihou YU, Yongtang SUN et al. The method of program design and c language realization of computing irradiation field in a γ-ray irradiation facility. Journal of Nuclear Agricultural Sciences, 16, 297-300(2002).
[7] Lei LI, Xiaoyan LI, Shubin JIANG et al. Optimization of source pencil deployment of single-plate irradiation facility based on improved greedy algorithm. Nuclear Techniques, 38, 100204(2015).
[8] Lei YANG, Yibao LIU, Xueyu GONG et al. Improved plant growth simulation algorithm and its practical application for source bars arrangement at big irradiation facility. Atomic Energy Science and Technology, 44, 1403-1408(2010).
[9] Xianchu SHAN, Chi GUAN, Liping XU et al. Optimum designing of bars arrangement and distribution of radiation field for a strong 60Co irradiator. Atomic Energy Science and Technology, 24, 39-45(1990).
[10] Jianhua WANG, Xiaoping QIU, Zhiping LUO et al. The optimum design for the dose field uniformity of a 60Co irradiation facility. Journal of Radiation Research and Radiation Processing, 26, 5-8(2008).
[11] Fengzhang ZENG, Xia ZHAO. Taguchi method and its standardized design. Machinery Industry Standardization & Quality, 7-9(2003).
[12] C Howard. Optimizing the gamma process. Biomedical Instrumentation & Technology, 54, 31-39(2020).
[14] Quan GUO, Minsheng ZENG, Shiyuan GUO et al. A proposal and practice for source pencil deployment of large single plate source Co-60 irradiator. Journal of Radiation Research and Radiation Processing, 32, 030801(2014).
[15] Jiangping LIU, Qiang CHEN. Safety and protection during the source inversion process of cobalt source irradiation equipment. Nuclear Science and Technology, 7, 1-6(2019).
[16] Xinghong LI. Fundamentals of radiation protection, 84-124(1982).
[17] Yanrong WEI, Ruifang HUANG. The application of Monte Carlo method in mathematical modeling. Journal of Nanchang College of Education, 27, 124-125(2012).
[18] Lei LI, Fansong ZENG, Xiaoli WU et al. A GEANT4 study for the dose rate distributions of a 60Co γ-rays irradiation facility. Journal of Radiation Research and Radiation Processing, 31, 61-65(2013).
[19] Hongyue LIU, Peixin SHI, Yin LIN. Effect of different source discharge methods on irradiation yield. Journal of Nuclear Agricultural Sciences, 13, 163-167(1999).
[20] Wei PENG, Aimin GAO, Junzhe ZHANG. Optimization analysis of source discharge in large industrial cobalt source radiation devices, 328-331(2009).
Get Citation
Copy Citation Text
Jiangping LIU, Qiang CHEN. Development and application of cobalt source layout interface program for gamma irradiation device[J]. Journal of Radiation Research and Radiation Processing, 2024, 42(5): 050701
Category: RADIATION INTERDISCIPLINARY RESEARCH
Received: Feb. 16, 2024
Accepted: Jun. 21, 2024
Published Online: Jan. 2, 2025
The Author Email: LIU Jiangping (ljp@zjfzgroup.com)