[1]隋鹏程,陈宝智,隋旭.安全原理[M].北京:化学工业出版社,2005:15-18
.
[2]张景林,林柏泉.安全学原理[M].北京:中国劳动社会保障出版社,2009:
93-95.
[3]罗春红, 谢贤平. 事故致因理论的比较分析[J]. 中国安全生产科学技术,
2007, 3(5):111-115.
LUO Chunhong,XIE Xianping.Comparison study of accident-causing theories[J
].Journal of Safety Science and Technology, 2007,3(5):111-115.
[4]钟茂华, 魏玉东,范维澄,等.事故致因理论综述[J].火灾科学,1999,8(3
):36-41.
ZHONG Maohua,WEI Yudong,FAN Weicheng,et al.Overview on accident-causing
theories[J].Fire Safety Science,1999,8(3):36-41.
[5]LEVESON N. A new accident model for engineering safer system[J].
Safety Science,2004,42( 4):237-270
[6]陈宝智. 安全原理[M]. 北京:冶金工业出版社,1995: 74-112.
[7]李淑庆,肖莉英,彭囿朗.基于能量储备与释放理论的大货车交通事故机理与对
策研究[J].安全与环境工程,2015,22(4):129-134.
LI Shuqing,XIAO Liying,PENG Youlang.Research on large-truck traffic
accident mechanism and counter-measures based on the energy reserve and
release theory[J].Safety and Environmental Engineering,2015,22(4):
129-134.
[8]蒋稚君,杨其新.基于能量释放事故致因模型的地铁火灾防治思路[J].现代隧
道技术,2006,53(5)84-88.
JIANG Yajun,YANG Qixin.Ideas for Prevention and treatment of fire disaster
in subway based on an accident causation model of energy releasing[J].
Modern Tunnelling Technology,2006,53(5):84-88.
[9]张炜,魏朗,彭绍勇.基于能量守恒原理的公路线形安全性评价[J].交通运输
工程学报,2009,9(4):85-91.
ZHANG Wei,WEI Lang,PENG Shaoyong.Safety evaluation of road alignment
based on energy conservation law[J].Journal of Traffic and Transportation
Engineering,2009,9(4):85-91.
[10]龙妍. 基于物质流、能量流与信息流协同的大系统研究[D]. 武汉: 华中科技
大学, 2009.
[11]龙妍, 黄素逸, 刘可. 大系统中物质流、能量流与信息流的基本特征[J]. 华
中科技大学学报(自然科学版),2008, 36(12):87-92.
LONG Yan, HUANG Suyi, LIU Ke.. Basic characteristics of material flow,
energy flow and information flow in large-scale systems[J]. Jouanal of
Huazhong University of Science and Technology(Natural Science Edition),2008
,36(12):87-92.
[12]张跃兵, 王凯, 王志亮. 直接危险源控制理论研究初探[J]. 中国安全生产科
学技术, 2012, 8(11): 33-38.
ZHANG Yuebing, WANG Kai, WANG Zhiliang. Exploration in theoretical study of
direct hazard control[J]. Journal of Safety Science and Technology, 2012,
8(11): 33-38.
[13]张漩. 典型生产事故调查分析和事故能量机理初探[D]. 西安: 西安建筑科技
大学, 2008.
[14]刘爱华. 城市灾害链动力学演变模型与灾害链风险评估方法的研究[D]. 长沙:
中南大学, 2013.
[15]肖盛夑.灾变链式演化跟踪技术[M]. 北京, 科学出版社, 2011: 21-23.
[16]赵阿兴. 灾害损失阈值的定义及其意义与应用研究[J]. 自然灾害学报, 2014,
23(6): 13-18.
ZHAO Axing. Definition, significance and application of calamity damage
threshold value[J]. Journal of Natural Disasters, 2014, 23(6): 13-18.
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