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921.
导致危险化学品储运火灾爆炸事故的因素众多,揭示其相互间的作用关系是切断事故链实施靶向干预的关键环节。首先,采用事故树和频度统计法遴选出致险因素,通过解释结构模型(ISM)建立致险因素间的递阶层次关系,并基于耦合理论对致险因素进行耦合作用的矢量分析,推导出危险化学品储运火灾爆炸事故因果关系图;然后,根据系统动力学(SD)理论,建立危险化学品储运火灾爆炸事故多因素耦合下的动力学模型。结果表明:该模型不仅能反映致险因素间的耦合作用关系,还可以对各变量不安全耦合量的累积过程进行可视化描述,为后续各致险因素对危险化学品储运火灾爆炸事故作用机理的研究奠定基础。 相似文献
922.
为研究储罐区发生池火灾时多米诺效应对周围人员及临近储罐的影响,利用180号燃料油开展3组大尺度池火灾试验。首先将所测温度转化为相应的热辐射值与理论值进行对比;然后根据实测热辐射均值,结合人员伤害曲线,分析热辐射对周围人员的伤害情况;最后根据试验结果和理论分析得出临近储罐的损害概率。结果表明:风的速率和风向影响池火燃烧,从而影响其热辐射的传播,即风速越大,下风向接收的热辐射强度越大;风速越不稳定,热辐射波动越大;当热辐射强度足够高时,人员在很短的暴露时间内,即使在远离火灾的地方仍可能受到严重的伤害;压力储罐比常压储罐更容易发生二次事故。因此,池火灾发生时,为预防多米诺效应的发生,要优先给下风向压力储罐降温。 相似文献
923.
为实现海上浮式生产系统(FPSO)火灾的预警,准确定位火源点,针对传统神经网络在火灾预警中存在收敛速度慢等问题,开发一种基于自适应神经网络的实时监测火灾预警方法。首先通过添加动量项和自适应学习率改进传统神经网络,并依据FPSO火灾事故数据训练学习网络;然后根据现场温度的实时监测数据,预测FPSO的火灾发生情况及位置;以FPSO平台的工艺处理模块I区为例,建立实时监测火灾预警自适应神经网络模型,利用FLACS软件设置火灾场景,将火灾发生后的温度监测数据输入到模型中。结果表明:输出的火源点位置与FLACS设置的火灾场景一致,验证了模型的有效性。 相似文献
924.
大型原油商业储备油库火灾危险性数值模拟分析 总被引:3,自引:1,他引:2
贠璞 《中国安全生产科学技术》2013,9(12):179-184
石油储备油库多向大型化、复杂化方向发展,发生事故时扑救非常困难。为了深入探讨巨型油罐火灾发展趋势与规律、事故危害后果,结合宁夏惠安堡原油商业储备油库这一工程实例,采用基于大涡模拟的FDS模型作为模拟计算平台,对巨型油罐火灾的燃烧过程进行数值模拟计算。通过分析计算,得到烟气分布、温度分布、热辐射强度分布等火灾过程参数的变化趋势,以及在有风和无风状态下着火罐对相邻油罐的影响,探讨现行建设工程消防技术标准就储罐防火间距、火灾时对邻近罐体冷却设计要求运用于巨型储油罐时的消防安全状况,为巨型储油罐消防安全科学合理设计提供理论依据。 相似文献
925.
为保障能源储备安全,探究雷电和静电对储气库安全的影响。根据雷电和静电理论,构建储气库雷静电概率模型,分析雷静电对储气库的影响。考虑天然气扩散的特殊性,选取高斯烟羽模型预测气体扩散范围,并结合闪火后果准则对闪火危害范围进行分析,构建CCPS-BST模型对爆炸危害范围预测,分析风速及大气稳定度对三种危害后果的影响。结果表明,雷静电会增加储气库泄漏后发生闪火和爆炸的概率,气体扩散范围和闪火后果沿主导风向呈梭形分布,蒸气云爆炸后果由中心向四周扩散,三种危害范围都与风速和大气稳定度呈相反的变化。研究结果可为多因素下储气库安全分析研究提供参考,为降低灾害后果和维护储气库的日常安全提供了理论依据。 相似文献
926.
区域土地利用变化是导致生态系统碳储量变化的主要原因,预测未来土地利用变化对碳储量的影响对于碳储功能的可持续发展具有重要意义.近年来,在自然和人为因素的共同作用下,黄河源区土地利用变化显著,其碳储功能也相应发生改变.本研究结合InVEST和GeoSoS-FLUS模型,评估黄河源区2000~2020年以及不同情景下2020~2040年土地利用变化及其对碳储量的影响.结果表明:① 2000~2020年黄河源区碳储量整体呈上升趋势,共增加11.59×106 t.② 20年间,黄河源区土地利用变化以低覆盖度草地、建设用地和湿地的面积增加和高覆盖度草地、中覆盖度草地和未利用地面积减少为主,未利用地大面积减少以及草地和湿地的面积增加是导致碳储量增加的主要原因.③ 2040年自然变化情景下黄河源区生态系统碳储量为871.34×106 t,较2020年增加3.92×106 t.生态保护情景下碳储量增幅明显,较2020年增加13.53×106 t.该研究结果可以为黄河源区土地利用管理决策以及碳储功能的可持续发展提供科学参考. 相似文献
927.
Recovery of phosphorus(P) from wastewater is of great significance for alleviating the shortage of P resources. At present, the P recovery process is faced with the problem of excessive organic carbon consumption when obtaining a P-concentrated recovery solution. This study proposed a new strategy to obtain a more highly concentrated P recovery solution with minimal carbon consumption by strengthening the P storage capacity of the biofilm. A biofilm sequencing batch reactor(BSBR) process was mod... 相似文献
928.
Nathália Weber;Saulo B. de Oliveira;Allan Cavallari;Isabela Morbach;Colombo C. G. Tassinari;Julio Meneghini; 《Greenhouse Gases: Science and Technology》2024,14(2):319-329
This study underscores the critical role of carbon capture and storage (CCS) in mitigating greenhouse gas emissions and addresses the potential for CCS projects in saline aquifers in Brazil, one of the world's largest carbon emitters. The country's ability to adopt CCS is significantly influenced by the availability of data related to regional CO2 storage potential and identifying suitable geological framework for CO2 injection. While oil and gas reservoirs have traditionally been prioritized, saline aquifers represent an underexplored and potentially higher capacity storage option. Despite Brazil's 31 sedimentary basins, the data quantity and availability for these contexts remain insufficient for advanced studies on the geological storage of CO2 considering saline aquifers. An initial study was conducted indicating five potential targets in the Paraná and Potiguar Basins for geological storage in saline aquifers based on available public data, mainly drilling data. This review reveals substantial challenges related to the evaluation of Brazil's CO2 storage capacity, such as the lack of modern seismic studies, the absence of a regulatory framework for CO2 storage, and insufficient investment in new well exploration. These challenges necessitate multistakeholder collaboration, the development of a supportive regulatory environment, and investment in extensive site characterization campaigns. Addressing these barriers is fundamental to realizing the country's CCS potential and contributing to global decarbonization efforts. © 2024 Society of Chemical Industry and John Wiley & Sons, Ltd. 相似文献
929.
Lianghan Cong;Shuaiyi Lu;Pan Jiang;Tianqi Zheng;Ziwang Yu;Xiaoshu Lü; 《Greenhouse Gases: Science and Technology》2024,14(6):1122-1138
Enhanced rock weathering (ERW) is an emerging negative emission technology (NET) with significant potential for mitigating climate change and improving soil health through the accelerated chemical weathering of silicate minerals. This study adopts a critical research approach to review existing ERW experiments, focusing on the mechanisms of soil improvement and CO₂ sequestration, as well as the economic costs and environmental risks associated with its large-scale implementation. The results demonstrate that while ERW effectively enhances soil pH and provides essential nutrients for crops, its CO₂ sequestration capacity is highly dependent on variables such as soil type, rock type, application rate, and particle size. Furthermore, the economic feasibility of ERW is challenged by high costs related to mining, grinding, and transportation, and environmental risks posed by the release of heavy metals like Ni and Cr during the weathering process. Notably, significant discrepancies exist between laboratory experiments and field applications, highlighting the need for extensive in-situ monitoring and adjustment of ERW practices. This study underscores the importance of optimizing ERW strategies to maximize CO₂ sequestration while minimizing environmental impacts. Future research should focus on long-term field experiments, understanding secondary mineral formation, and refining the application techniques to enhance the overall efficiency and sustainability of ERW. © 2024 Society of Chemical Industry and John Wiley & Sons, Ltd. 相似文献
930.
Tao Xuan;Xiaomin Cao;Qi Li;Fangfang Li;Liang Xu; 《Greenhouse Gases: Science and Technology》2024,14(2):221-237
In this paper, the mechanisms of long-term CO2 sequestration and the effects of injection modes (including injection temperature, injection rate and injection cycle) in Zhujiang Formation characterized by high porosity and permeability were investigated using the numerical simulation method. Simulation results showed that more than 88% of the injected CO2 would exist in a supercritical state during the injection period and more than 79% of CO2 would be sequestrated in the reservoir by mineral trapping after 5,000 years. Eventually, the distribution shape of SC-CO2 was a quarter funnel near the injection well, while the distribution shapes of dissolved and mineralized CO2 were both one quarter rotunda. During the long-term CO2 sequestration in Zhujiang Formation, the dissolved minerals were anorthite, chlorite and smectite in turn, while the top three main precipitated minerals were calcite, dawsonite and albite. Moreover, higher injection temperature leads to a higher mineral tapping and more dissolved/precipitated minerals. While higher injection rate reduces the mineral tapping and total amount of dissolved/precipitated mineral. Compared to injection temperature and injection rate, the injection cycle has little effect on the CO2 phase evolution and mineral dissolution/precipitation process. © 2024 Society of Chemical Industry and John Wiley & Sons, Ltd. 相似文献