[1]吕虹云. 大型公寓建设项目风险评估模型仿真研究[J]. 计算机仿真, 2017, 34(2):346-349.
LYU Hongyun. Model simulation of large apartment construction project risk assessment[J].Computer Simulation, 2017, 34(2):346-349.
[2]苏秀红. HHT在爆炸振动信号处理中的应用[J]. 电子设计工程, 2016, 24(10):156-158.
SU Xiuhong. The application of HHT in blasting signal processing[J].Electronic Design Engineering, 2016, 24(10):156-158.
[3]苏利红, 罗彦. 火电厂锅炉节能减排技术分析[J]. 科技视界, 2017, 23(2):274-274.
SU Lihong, LUO Yan. Analysis on energy saving and emission reduction technology of thermal power plant[J]. Science&Technology Vision, 2017, 23(2):274-274.
[4]苑举斌. 火电厂安全管理的精细化分析研究[J]. 科技风, 2017,14(5):217-218.
YUAN Jubin. Refined analysis and research on safety management of thermal power plants[J]. Technology Wind, 2017,14(5):217-218.
[5]王晨辰, 张盛中, 杨晓瑜, 等. 天津港“8·12”爆炸事件记录波形分析[J]. 地震工程学报, 2018,40(1):130-138.
WANG Chenchen,ZHANG Shengzhong,YANG Xiaoyu, et al. Analysis of record waveform of “8·12” explosion event in tianjin port[J]. China Earthquake Engineering Journal, 2018,40(1):130-138.
[6]郭二果, 李传镇, 王俊明,等. 火电厂环境风险评估技术要点[J]. 安全、健康和环境, 2016, 16(4):30-33.
GUO Erguo, LI Chuanzhen, WANG Junming, et al. Technical key points in environment risk evaluation of thermal power plants[J]. Safety Health & Environment, 2016, 16(4):30-33.
[7]吴庭吉, 郭可可, 陈光秀,等. 火电厂环境风险的评估技术[J]. 中国资源综合利用, 2017, 35(4):91-92.
WU Tingji, GUO Keke, CHEN Guangxiu, et al.Environmental risk assessment technology of thermal power plant[J].China Resources Comprehensive Utilization, 2017, 35(4):91-92.
[8]孟宪良, 杨莉. 火电工程项目施工风险评价指标体系的构建[J]. 电子制作, 2016(20):17.
MENG Xianliang, YANG Li. Construction of construction risk evaluation index system for thermal powerengineering projects[J]. Practical Electronics, 2016(20):17.
[9]成明涛, 林友新, 肖志前,等. 火力发电厂高温蒸汽管道应力评估与调整[J]. 广东电力, 2016, 29(11):8-11.
CHENG Mingtao,LIN Youxin, XIAO Zhiqian,et al. Assessment and adjustment for stress of high-temperature steam pipelines in thermal power plants[J]. Guangdong Electric Power , 2016, 29(11):8-11.
[10]徐年, 李伟, 陈飞, 等. 基于模糊理论的地震现场图像增强技术研究[J]. 地震工程学报, 2016, 38(S1):134-137.
XU Nian, LI Wei, CHEN Fei, et al. Enhancement technology for seismic field images based on fuzzy theory[J]. China Earthquake Engineering Journal,2016, 38(S1):134-137.
[11]刘忠军. 爆炸危险区域电伴热现场智能控制器的设计及应用[J]. 防爆电机, 2017, 52(4):38-42.
LIU Zhongjun.Design and application of on-site intelligent controller of electric tracing device for explosive hazardous area[J].Explosion-Proof Electric Machine,2017, 52(4):38-42.
[12]胡向阳. 变电站设备失效概率模型及电气主接线风险评估[J]. 供用电, 2017, 34(3):78-83.
HU Xiangyang.Failure probability model and main electrical wiring risk assessment of substation devices[J].Distribution & Utilization,2017, 34(3):78-83.
[13]赵刚,黄汉明,卢欣欣,等. 基于BP-Adaboost方法的天然地震和人工爆炸事件波形信号分类识别研究[J]. 地震工程学报,2017,39(3):557-563.
ZHAO Gang,HUANG Hanming,LU Xinxin, et al. Research on the classification of seismic wave signals of earthquakes and explosion events based on bp-adaboost[J]. China Earthguake Engineering Journal,2017,39(3):557-563.
[14]唐丽华, 李山有, 宋立军. 地震灾害风险评估方法的对比分析——以乌鲁木齐市为例[J]. 地震工程学报, 2016, 38(5):838-845.
TANG Lihua, LI Shanyou, SONG Lijun. Comparative analysis of earthquake risk assessment methods: a case study on urumqi city[J]. China Earthquake Engineering Journal,2016, 38(5):838-845.
[15]陈永杰, 覃欣欣, 牛国庆.基于区间层次分析法的煤尘爆炸引火源风险评估[J]. 中州煤炭, 2016, 50(8):1-4.
CHEN Yongjie,TAN Xinxin,NIU Guoqing.Risk assessment of coal dust explosion ignition sources based on interval analytic hierarchy process[J]. Zhongzhou Coal, 2016, 50(8):1-4.
[16]刘辉. 基于ISO价值链的火电企业标准化效益评估案例研究[J]. 标准科学, 2016, 14(3):9-14.
LIU Hui. Case study on standardization benefit assessment of thermal power enterprise based on iso value chain[J].Standard Science, 2016, 14(3):9-14.
[17]周德红, 李文, 冯豪,等. 事故树分析法在LNG储存系统风险评估中的应用[J]. 工业安全与环保, 2016, 42(2):63-66.
ZHOU Dehong, LI Wen, FENG Hao, et al. Application of fault tree analysis method in risk assessment for lng storage system[J].Industrial Safety and Environmental Protection, 2016, 42(2):63-66.
[18]亢永, 吕鹏飞, 庞磊. 城市燃气管道泄漏事故风险场强度评价研究[J]. 安全与环境工程, 2016, 23(6):166-169.
KANG Yong,LYU Pengfei,PANG Lei.Evaluation of risk field intensity for leakage accidents of urban gas pipelines[J].Safety and Environmental Engineering, 2016, 23(6):166-169.