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7. Code Development and Verification of LBE-water Interaction under Steam Generator Tube Rupture Accident for LBE-cooled Reactor

Author

GU Zhixing;YU Hongxing;HUANG Daishun;YAN Mingyu;SHEN Yaou;ZHANG Muhao

Subjects
lbe-cooled reactor, steam generator tube rupture accident, lbe-water interaction, code development, code verification, Nuclear engineering. Atomic power, TK9001-9401, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

The LBE-cooled reactor is one of the important choices for sustainable and safe development of nuclear energy systems in the future. The safety issues involved with the steam generator tube rupture (SGTR) accident must be considered in the design and operation of such reactors. The essence of the evolutions during this SGTR accident for LBE-cooled reactors is focused on the interaction behaviors between high temperature liquid metal LBE and pressurized water. For such considerations, relevant researches on the mechanistic experiments and numerical simulations have been carried out at home and abroad. However, with respect to the numerical simulations of SGTR accident in LBE-cooled reactor, the traditional system analysis codes based on the typical two-fluid six-equations model, such as RELAP5, ATHLET, etc., are not appropriate here. And the targeted simulation codes used for SGTR in LBE-cooled reactors are still rare, researches in foreign countries are focused on the multi-phase, multi-components, multi-velocities based computational fluid dynamics (CFD) and neutronics coupled code SIMMER-Ⅲ which is developed to analyze the serious accidents of liquid metal cooled fast reactors, such as LBE-cooled reactors or sodium cooled reactors. While domestically, researches are focused on the multi-phase flow codes including NTC-2D and MC3D. It is absolutely of great significance to conduct further and in-depth studies on the fundamental models and numerical algorithms for thus SGTR accident. So, aiming at the interaction behaviors between LBE and water, which is one of the significant scientific issues involved with the accident evolution characteristics and behaviors of SGTR in LBE-cooled reactors, investigations on the basic theories, constitutive models and numerical algorithm were performed in this paper. A new three-fluid code including LBE, liquid water and vapor mixtures was developed, and its verification work was performed by using the published experimental data abroad including the water injecting into LBE liquid metal pool experiment in a small experimental apparatus by Japan JAEA and water injecting into LBE pool experiment in large experimental LIFUS5 series facilities by Italy ENEA. The results show that the new code developed in this paper agrees reasonably on the whole with the experimental results, but certain deviations still exist at some local details compared with the experimental results. On the whole, the relevant research achievements, including the critical related models, algorithms and code modules are able to simulate the interaction behaviors between LBE and water reasonably. The code developed in this paper is expected to provide certain theoretical and technical support for the accident analyses and safety evaluations of SGTR accident in LBE-cooled reactors. Meanwhile, more in-depth researches on the optimizations of the critical models and algorithms should be carried out in the future work.

Published
2023

21. Integrated analysis of transcriptomics and defense-related phytohormones to discover hub genes conferring maize Gibberella ear rot caused by Fusarium graminearum

Author

Yuan, Guangsheng, primary, Shi, Jiahao, additional, Zeng, Cheng, additional, Shi, Haoya, additional, Yang, Yong, additional, Zhang, Chuntian, additional, Ma, Tieli, additional, Wu, Mengyang, additional, Jia, Zheyi, additional, Du, Juan, additional, Zou, Chaoying, additional, Ma, Langlang, additional, Pan, Guangtang, additional, and Shen, Yaou, additional

Published
2024
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36. Green tissue-targeted expression of the Cry1Ab/c gene in transgenic maize using the Cre/loxP system as an alternative strategy against lepidopteran pests.

Author

Yuan, Guangsheng, Shi, Jiaxin, Shi, Jiahao, He, Dandan, Li, Youliang, Du, Juan, Zou, Chaoying, Ma, Langlang, Pan, Guangtang, and Shen, Yaou

Subjects
TRANSGENE expression, GENE expression, FALL armyworm, GENETIC techniques, GENETIC engineering, CORN
Abstract

Genetically modified (GM) proteins in edible tissues of transgenic maize are of intense public concern. We provided a Cre/ lox P-based strategy for manipulating the expression of transgenes in green tissues while locking them in nongreen tissues. First, the Cre gene was driven by the green tissue-specific promoter Zm1rbcS to generate transgenic maize KEY. Meanwhile, a gene cassette containing a Nos terminator (NosT) in front of the Cry1Ab/c gene was driven by the strong promoter ZmUbi to generate another transgenic maize LOCK. By crossing KEY and LOCK plants, the expressed Cre recombinase under the control of the Zm1rbcS promoter from KEY maize accurately removed the NosT of LOCK maize. Consequently, the expression of blocked Cry1Ab/c was enabled in specific green tissues in their hybrids. The expression level and concentration of Cry1Ab/c were observed using a strategy with high specific accumulation in green tissues (leaf and stem). Still, only a small or absent amount was observed in root and kernel tissues. Furthermore, we assessed the bioactivity of transgenic maize against 2 common lepidopteran pests, Ostrinia furnacalis and Spodoptera frugiperda, in the laboratory and field. The transgenic plants showed high plant resistance levels against the 2 pests, with mortality rates above 97.2% and damage scales below 2.2 compared with the control group. These findings are significant for exploring novel genetic engineering techniques in GM maize and providing a feasible strategy for transgenes avoiding expression in edible parts. In addition, implementing the Cre/ lox P - mediated system could relieve public sentiment toward the biosafety of GM plants. [ABSTRACT FROM AUTHOR]

Published
2023
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39. An Integration of Linkage Mapping and GWAS Reveals the Key Genes for Ear Shank Length in Maize

Author

Liang, Zhenjuan, primary, Xi, Na, additional, Liu, Hao, additional, Liu, Peng, additional, Xiang, Chenchaoyang, additional, Zhang, Chen, additional, Zou, Chaoying, additional, Cheng, Xuyujuan, additional, Yu, Hong, additional, Zhang, Minyan, additional, Chen, Zhong, additional, Pan, Guangtang, additional, Yuan, Guangsheng, additional, Gao, Shibin, additional, Ma, Langlang, additional, and Shen, Yaou, additional

Published
2022
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42. Whole-genome sequencing of cultivated and wild peppers provides insights into Capsicum domestication and specialization

Author

Qin, Cheng, Yu, Changshui, Shen, Yaou, Fang, Xiaodong, Chen, Lang, Min, Jiumeng, Cheng, Jiaowen, Zhao, Shancen, Xu, Meng, Luo, Yong, Yang, Yulan, Wu, Zhiming, Mao, Likai, Wu, Haiyang, Ling-Hu, Changying, Zhou, Huangkai, Lin, Haijian, González-Morales, Sandra, Trejo-Saavedra, Diana L., Tian, Hao, Tang, Xin, Zhao, Maojun, Huang, Zhiyong, Zhou, Anwei, Yao, Xiaoming, Cui, Junjie, Li, Wenqi, Chen, Zhe, Feng, Yongqiang, Niu, Yongchao, Bi, Shimin, Yang, Xiuwei, Li, Weipeng, Cai, Huimin, Luo, Xirong, Montes-Hernández, Salvador, Leyva-González, Marco A., Xiong, Zhiqiang, He, Xiujing, Bai, Lijun, Tan, Shu, Tang, Xiangqun, Liu, Dan, Liu, Jinwen, Zhang, Shangxing, Chen, Maoshan, Zhang, Lu, Zhang, Li, Zhang, Yinchao, Liao, Weiqin, Zhang, Yan, Wang, Min, Lv, Xiaodan, Wen, Bo, Liu, Hongjun, Luan, Hemi, Zhang, Yonggang, Yang, Shuang, Wang, Xiaodian, Xu, Jiaohui, Li, Xueqin, Li, Shuaicheng, Wang, Junyi, Palloix, Alain, Bosland, Paul W., Li, Yingrui, Krogh, Anders, Rivera-Bustamante, Rafael F., Herrera-Estrella, Luis, Yin, Ye, Yu, Jiping, Hu, Kailin, and Zhang, Zhiming

Published
2014

43. Green tissue-targeted expression of the Cry1Ab/cgene in transgenic maize using the Cre/loxP system as an alternative strategy against lepidopteran pests

Author

Yuan, Guangsheng, Shi, Jiaxin, Shi, Jiahao, He, Dandan, Li, Youliang, Du, Juan, Zou, Chaoying, Ma, Langlang, Pan, Guangtang, and Shen, Yaou

Abstract

Genetically modified (GM) proteins in edible tissues of transgenic maize are of intense public concern. We provided a Cre/loxP-based strategy for manipulating the expression of transgenes in green tissues while locking them in nongreen tissues. First, the Cregene was driven by the green tissue-specific promoter Zm1rbcSto generate transgenic maize KEY. Meanwhile, a gene cassette containing a Nosterminator (NosT) in front of the Cry1Ab/cgene was driven by the strong promoter ZmUbito generate another transgenic maize LOCK. By crossing KEY and LOCK plants, the expressed Cre recombinase under the control of the Zm1rbcSpromoter from KEY maize accurately removed the NosTof LOCK maize. Consequently, the expression of blocked Cry1Ab/c was enabled in specific green tissues in their hybrids. The expression level and concentration of Cry1Ab/cwere observed using a strategy with high specific accumulation in green tissues (leaf and stem). Still, only a small or absent amount was observed in root and kernel tissues. Furthermore, we assessed the bioactivity of transgenic maize against 2 common lepidopteran pests, Ostrinia furnacalisand Spodoptera frugiperda,in the laboratory and field. The transgenic plants showed high plant resistance levels against the 2 pests, with mortality rates above 97.2% and damage scales below 2.2 compared with the control group. These findings are significant for exploring novel genetic engineering techniques in GM maize and providing a feasible strategy for transgenes avoiding expression in edible parts. In addition, implementing the Cre/loxP-mediated system could relieve public sentiment toward the biosafety of GM plants.

Published
2023
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44. A Combination of a Genome-Wide Association Study and a Transcriptome Analysis Reveals circRNAs as New Regulators Involved in the Response to Salt Stress in Maize

Author

Liu, Peng, primary, Zhu, Yuxiao, additional, Liu, Hao, additional, Liang, Zhenjuan, additional, Zhang, Minyan, additional, Zou, Chaoying, additional, Yuan, Guangsheng, additional, Gao, Shibin, additional, Pan, Guangtang, additional, Shen, Yaou, additional, and Ma, Langlang, additional

Published
2022
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45. Combined QTL Mapping across Multiple Environments and Co-Expression Network Analysis Identified Key Genes for Embryogenic Callus Induction from Immature Maize Embryos

Author

Long, Yun, primary, Liang, Tianhu, additional, Ma, Langlang, additional, Liu, Peng, additional, Yang, Yun, additional, Zhang, Xiaoling, additional, Zou, Chaoying, additional, Zhang, Minyan, additional, Ge, Fei, additional, Yuan, Guangsheng, additional, Lübberstedt, Thomas, additional, Pan, Guangtang, additional, and Shen, Yaou, additional

Published
2022
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50. Genetic architecture of maize yield traits dissected by QTL mapping and GWAS in maize

Author

Zhang, Xiao, primary, Ren, Zhiyong, additional, Luo, Bowen, additional, Zhong, Haixu, additional, Ma, Peng, additional, Zhang, Hongkai, additional, Hu, Hongmei, additional, Wang, Yikai, additional, Zhang, Haiying, additional, Liu, Dan, additional, Wu, Ling, additional, Nie, Zhi, additional, Zhu, Yonghui, additional, He, Wenzhu, additional, Zhang, Suzhi, additional, Su, Shunzong, additional, Shen, Yaou, additional, and Gao, Shibin, additional

Published
2022
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