基于事理图谱的电力安全事故预控方法*

为解释全国电力安全事故的演化规律并为预控事故的发生,提出电力安全事故事理图谱的构建与推演方法。以国家能源局发布的全国电力安全生产情况为数据源,使用规则模板提取事件槽对;利用Word2vec训练词向量,通过事件槽相似度计算泛化事件槽,并以热力图矩阵记录泛化权重;采用Neo4j构建事故事理图谱,以泛化权重和事件链的方向预测事故走向。结果表明:方法能够较好地揭示事故演化的关键节点、预演电力安全事故发展路径,为事故的预控提供1种有效的知识服务方案。     

冻融循环作用下受荷砂岩的能量演化与破碎分形特征*

为研究冻融循环作用对岩石力学特性的影响,对砂岩试件依次进行冻融循环处理、单轴压缩实验以及筛分实验,分析不同冻融循环次数下砂岩试件加载过程中的能量演化、分配规律以及破坏后碎屑尺度分布的分形特征,并讨论冻融循环作用的影响效应。结果表明:随着冻融循环次数的增加,单轴抗压强度和弹性模量均呈指数衰减的趋势,峰值应力点对应的耗散应变能及其与总能量比值表现出类似的变化规律。这些试件破坏后的碎屑尺度分布具有分形特征,分形维数在2.50~2.61之间。数据拟合进一步表明冻融循环作用下耗散应变能与分形维数之间呈显著的线性正相关关系,这是因为冻融循环次数越大使得砂岩试件的抗压强度越小,破坏所需的耗散应变能越小,试件破碎程度越不严重,导致相应的分形维数越小。     

Fire and risk analysis during loading and unloading operation in liquefied petroleum gas (LPG) bottling plant

The article focuses on analyzing risks associated with the gas transfer operation in a liquified petroleum gas (LPG) bottling plant in India. The transfer operations involve transferring liquified gas from the transport tanker to the underground storage tank. Due to the rapid expansion of the cities, many LPG bottling plants in India got surrounded by residential areas and business centers. Moreover, to maintain the supply chain, the frequency of the transfer operations at the bottling plant also increased. In this scenario, an accidental release of LPG during the transfer operation may lead to various consequences such as a pool fire, a fireball, and even a catastrophic rupture of the tank with a successive explosion of its contents. In the study, the operations involved in bottling plants are classified into different hazard zones and analyzed. The probability of occurrence of events leading to an accident is modeled using modeling tools such as ALOHA and PHAST. The consequences of an accident following various events, such as jet fire, fireball, etc., are modeled, and the simulation results are compared. The thermal radiation has been estimated as 4–40 kW/m², which could adversely affect the nearby population and could result in damaging plant machinery and equipment.     

Numerical investigation and analysis of indoor gas explosion: A case study of “6·13” major gas explosion accident in Hubei Province,China

Taking the ' 6·13 ′ major gas explosion accident in Shiyan, Hubei Province, China as an example, three problems were studied in this work: (1)The determination of the volume of natural gas involved in the explosion; (2)The propagation process of shock wave inside the building and the damage evolution process of the accident-related building; (3)The overpressure and fragment injury to the person outside the building. Through the numerical simulation in ANSYS/LS-DYNA software, the volume of natural gas involved in the explosion is determined to be 10240 × 1400 × 400 cm (length × width × height) from three perspectives: the damage to the building, the distribution of overpressure inside the building, and the TNT equivalent of the explosion energy. The simulation results are in good line with the accident, which verifies the effectiveness of the scheme and the accuracy of the numerical model. Based on the reasonable filling scheme, the propagation process of shock waves inside the building, the damage evolution process of the building, and the injury ranges of overpressure and fragments outside the building are analyzed. It can be found that the propagation of shock waves in confined space is complex and variable. The explosion shock waves are first reflected and superimposed in the watercourse, resulting in pressure rise. At about 8ms, the shock waves rushed into the first-floor space of the building, and the maximum overpressure was about 0.56 MPa. At about 50 ms, the shock waves rushed into the second-floor space, and the maximum overpressure was about 0.139 MPa. The first and second-floor slabs and infilled walls were almost completely destroyed. The interior walls of the infilled walls are mainly collapsed, and the exterior walls are ejection around the building as the center. The peak displacement and peak velocity of the interior walls of each floor are about 15% of the exterior walls. The fragments which cause fragment injury mainly come from the retaining wall above the watercourse, the maximum velocity is about 89 m/s, and the maximum displacement is 8.9 m. The safety distance of fragment injury is about 8.8 m, while the safety distance of overpressure injury is about 4.6 m. The lethal distance of fragment injury is greater than that of overpressure injury. Compared with the distance between different damage levels of overpressure injury, the difference in fragment injury is small. Therefore, the safety assessment at the engineering level only needs to consider the safety distance of fragment injury. This study can provide suggestions for evaluating the damage of natural gas cloud explosions in confined spaces and is helpful for accident investigation and safety protection.     

Regulating non-precious transition metal nitrides bifunctional electrocatalysts through surface/interface nanoengineering for air-cathodes of Zn-air batteries

Zn-air batteries (ZABs), especially the secondary batteries, have engrossed a great interest because of its high specific energy, economical and high safety. However, due to the insufficient activity and stability of bifunctional electrocatalysts for air-cathode oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) processes, the practical application of rechargeable ZABs is seriously hindered. In the effort of developing high active, stable and cost-effective electrocatalysts, transition metal nitrides (TMNs) have been regarded as the candidates due to their high conductivity, strong corrosion-resistance, and bifunctional catalytic performance. In this paper, the research progress in TMNs-based material as ORR and OER electrocatalysts for ZABs is discussed with respect to their synthesis, chemical/physical characterization, and performance validation/optimization. The surface/interface nanoengineering strategies such as defect engineering, support binding, heteroatom introduction, crystal plane orientation, interface construction and small size effect, the physical and chemical properties of TMNs-based electrocatalysts are emphasized with respect to their structures/morphologies, composition, electrical conductivity, specific surface area, chemical stability and corrosion resistance. The challenges of TMNs-based materials as bifunctional air-cathode electrocatalysts in practical application are evaluated, and numerous research guidelines to solve these problems are put forward for facilitating further research and development.     

乡村振兴背景下县域农业农村创新发展评价及空间格局——以甘肃省为例

实施农业农村现代化创新发展措施,将有效促使乡村振兴战略长远推进,形成我国农业农村创新发展的新局面。基于甘肃省86个县域研究单元,从创新投入、创新保障、创新效果三个维度构建了包含28个二级指标的农业农村创新发展评价指标体系,就农村地区创新发展水平进行综合评价。结果表明：（1）甘肃省农业农村整体创新发展得分呈上升趋势,但增长幅度较为缓慢。综合创新能力得分较高的县（区）主要集中在河西地区东部,得分较低的县（区）主要集中在南部民族地区。河西地区创新保障和创新效果水平处于全省前列,南部民族地区创新投入水平较低。（2）全省农业农村创新发展在东西方向上表现为西高东低,2013年以后逐渐表现出“两头高、中间低”趋势;在南北方向上表现北高南低;在东南—西北方向上呈现出西北高、东南低;在西南—东北方向上呈现出东北高、西南低。创新发展指数方向特征未发生明显变化,在空间上具有一定的锁定性。（3）创新发展热点区域集中在河西地区张掖市、武威市及金昌市,冷点区域集中分布在南部民族地区;极冷点区和极热点区数量减少,县域农业农村创新发展差距在减小。（4）多元资本投入、农业经济发展、自然地理条件及资源禀赋、农业基础设施配置、农业发展政策等通过内外因素结合创新发展供需两侧作用于甘肃省农业农村创新发展时空演化。     

浙江省都市区碳排放时空演变及其影响因素

都市区建设促进城镇协同发展,对碳排放产生了影响,因此研究都市区建设与碳排放的关系,有助于探索减排的有效途径。基于浙江省各县市区2010—2018年间土地利用、能源消费等数据,测算碳排放量;利用空间自相关方法和空间计量回归模型,探讨四大都市区碳排放的时空演变特征及其影响因素。结果表明：（1）杭州都市区是浙江省最大的碳排放都市区,其次是宁波、温州和金义都市区。（2）碳排放在空间上具有明显的集聚特征。不同都市区碳排放的时空演变特征具有显著的差异性。（3）都市区建设有助于各城镇的协同作用,促进资源的高效配置和利用,进而降低碳排放。（4）都市区碳排放的影响因素和驱动机制受到都市区发展阶段和特色影响,形成不同的空间特征。（5）都市区低碳建设任务和方案是由其独特的碳排放驱动机制和时空演变特征决定的。     

煤矿井下瓦斯突出危险性的模糊分析

基于模糊可能性理论建立了瓦斯突出危险性函数。应用模糊多元分析方法建立了瓦斯突出危险性分析模型,通过对各类确定与非确定信息的模糊综合分析,预测煤矿开采过程中瓦斯突出的危险性,并在生产中应用该模型取得了较好的效果。     

碱消解-P&T-GC-AFS法同时测定土壤中的甲基汞和乙基汞研究

建立了碱消解-吹扫捕集-气相色谱-原子荧光光谱法(P&T-GC-AFS)同时测定土壤中甲基汞和乙基汞的分析方法.样品在90℃条件下经氢氧化钾/甲醇消解2.5 h,调节pH为5.40,并丙基化衍生后,采用P&T-GC-AFS法测定.方法对甲基汞、乙基汞的线性相关系数分别为0.999 7、0.999 6,检出限分别为0.26、0.41 ng·g -1.在不同质量浓度水平上进行加标回收率实验,甲基汞、乙基汞的回收率分别为90.5%~93.3%、86.5%~89.6%.该方法样品前处理简单、检出限低,适合批量测定土壤中甲基汞和乙基汞.