放射性废物超级压缩装置研制及性能试验

Abstract

Abstract: In order to achieve the indigenous production of radioactive waste supercompactor, an advanced supercompactor was developed and a serious of compression experiments based on various typical solid wastes of nuclear power plant were conducted. Results showed that, the supercompactor remains stable and there was no liquid leaking into environment during the process of transfer after running for over 200 hours. In addition, the compression efficiency exceeded seven tanks per hour. The supercompactor can be applied in the treatment of compressible radioactive solid wastes in nuclear power plant.

Key words: supercompactor, radioactive waste, nuclear power plant, performance experiment

CLC Number:

TL941+.31

ZHENG Wei, QIAO Baoquan, LIN Peng, ZHOU Dongsheng, ZOU Liping, WANG Zhaohui, ChenJunjie, LIU Xiajie. Equipment development and performance experiment ofradioactive waste supercompactor[J].RADIATION PROTECTION, 2021, 41(1): 58-63.

References

[1] 杜洪铭,靳松,刘天险,等.放射性固体废物压缩减容技术研究[J].原子能科学技术,2015,49(8):1515-1520.
DU Hongming,JIN Song,LIU Tianxian,et al.Study on compaction of radioactive solid waste[J].Atomic Energy Science and Technology,2015,49(8):1515-1520.
[2] 任宪常,丁颖,欧国勇,等.中低放射性固体废物压缩减容系统辊道传输线集成设计[J].新技术新工艺,2015(3):50-54.
REN Xianchang,DING Ying,OU Guoyong,et al.Integration design of roller conveyer in the compression and volume reduction system for low and intermediate level radioactive solid waste[J].New Technology&New Process,2015(3):50-54.
[3] 刘佩,刘昱,姚兵,等.核电厂离堆放射性废物处理方案浅析[J].核动力工程,2013(5):149-153.
LIU Pei,LIU Yu,YAO Bin,et al.Analysis of radwaste treatment localization scheme at nuclear power plants[J].Nuclear Power Engineering,2013(5):149-153.
[4] 董文曙,周焱,王鑫.放射性废树脂热态超压处理工艺评价[J].广州化工,2017,45(19):139-141.
DONG Wenshu,ZHOU Yan,WANG Xin.Evaluation of radioactive spent resin hot super-compaction process[J].Guangzhou Chemical Industry,2017,45(19):139-141.
[5] 马小强,杨洋,朱明山,等.放射性废树脂热态超级压缩处理 [J].核科学与工程,2018,38 (06):915-920.
MA Xiaoqiang,YANG Yang,ZHU Mingshan,et al.Hot super-compaction process for radioactive spent resin[J].Nuclear Science and Engineering,2018,38 (06):915-920.
[6] 毛莉.核电厂放射性废物处理技术的应用[J].中国高新技术企业,2012,(26):108-110.
MAO Li.Application of radioactive waste treatment technology in nuclear power plant[J].China High-Tech Enterrises,2012,(26):108-110.
[7] 李国宝,马楠,李娟.三门系列AP1000核电厂放射性废物管理技术特点浅析[J].核安全,2015,(3):43-47.
LI Guobao,MA Nan,LI Juan.Simple analysis of sanmen series AP1000 nuclear power plant radwaste management technical characteristics[J].Nuclear Safety,2015,(3):43-47.

[1]	LI Hui, ZANG Yikun, HU Yipeng. Analysis on radiation protection design of AP1000 unit of Sanmen nuclear power plant [J]. RADIATION PROTECTION, 2021, 41(1): 44-49.
[2]	GAN Xueying, XU Chunyan, FANG Lan, WANG Shijun, HE Wei, LIU Xinhua. Investigation on performance requirements and test methods oflow and intermediate vitrified radioactive waste [J]. RADIATION PROTECTION, 2021, 41(1): 50-57.
[3]	WANG Liping. Monitoring of gamma radiation level at Shanxi radioactivewaste repository from 2013 to 2018 [J]. RADIATION PROTECTION, 2020, 40(6): 691-695.
[4]	ZHENG Bowen, XU Wei, CHU Haoran, YANg Lili, LI Xiaohai, YANG Liguo, ZHANG Xiaobin. Designing and verification of a compact incineration device for low level radioactive solid waste [J]. RADIATION PROTECTION, 2020, 40(5): 365-371.
[5]	ZHENG Bowen, TANG Can, YANG Lili, XU Wei, CHU Haoran, HE Xiaoping, ZHANG Yu. Development trend and prospect of radioactive waste incineration technology [J]. RADIATION PROTECTION, 2020, 40(5): 379-386.
[6]	SHA Xiangdong, HUANG Yanjun, ZENG Fan, SHANGGUAN Zhihong, JIANG Jing, WU Liansheng, CAO Zhonggang, CHEN Chaofeng. An investigation on discharge and analytical methods of ⁵⁵Fe in liquid effluents from PWRs of nuclear power plants [J]. RADIATION PROTECTION, 2020, 40(5): 394-401.
[7]	GAO Junyi. Three-dimensional numerical analysis of the interaction between fracture water flow, heat transfer and distance between disposal pits in the near field of high-level radioactive waste repository [J]. RADIATION PROTECTION, 2020, 40(3): 231-238.
[8]	FANG Lan, LIU Xinhua, ZHU Zhaowen, XU Chunyan. Research on framework system of source term in primary circuit and emission source term at nuclear power plants [J]. RADIATION PROTECTION, 2020, 40(2): 89-98.
[9]	REN Xueming, LI Xiaoning, MA Boyang. Discussion on potential surface contamination risk management of a nuclear power plant [J]. RADIATION PROTECTION, 2020, 40(2): 120-125.
[10]	LIU Dengkui, ZHANG Jinsong, LI Zhenchen, XU Jiang. A shielding practice with silica sands for an intermediate level radioactive waste pit in order to enlarge the opening [J]. RADIATION PROTECTION, 2020, 40(2): 115-119.
[11]	ZHU He, LIU Bin, JIN Li, WANG Maojie, HAO Limin, LI Langxin, WANG Min, YUE Huiguo, FENG Jianping. Practice on a new mode of nuclear accident emergency exercise in nuclear power plant [J]. RADIATION PROTECTION, 2020, 40(2): 162-167.
[12]	JIANG Konghua, LIU Hanhan, TIAN Qing, SUN Kaibin. Assessment of public dose caused by effluent discharge at Tianwan nuclear plant (2007—2016) [J]. RADIATION PROTECTION, 2020, 40(1): 31-37.
[13]	HUANG Yanjun,HE Yi,SHANGGUAN Zhihong,CHEN Chaofeng,ZHAO Feng. Discussion on some critical issues in the emergency monitoring program of environmental radiation in nuclear power plant [J]. RADIATION PROTECTION, 2019, 39(5): 355-364.
[14]	YANG Junwu, ZHOU Liangfa, GAO Xing, LUN Zhengming, LIU Qiang, ZHOU Zhihui, XU Qiang, LI Wei. Radiation protection monitoring and control under the condition of fuel defects for PWR [J]. RADIATION PROTECTION, 2019, 39(5): 365-371.
[15]	LING Hui, WANG Ju, LIU Yuemiao, GAO Yufeng, CHEN Weiming, TONG Qiang. Sensitivity analysis of near-field radionuclide release rate for buffer material parameters [J]. RADIATION PROTECTION, 2019, 39(5): 403-409.

Equipment development and performance experiment ofradioactive waste supercompactor

PDF (PC)

Like

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Metrics

Comments

Recommended 10