污染场地土壤多环芳烃(PAHs)生物可利用浓度的健康风险评价方法

随土壤不慎经口摄入是PAHs对人体健康造成危害的重要途径之一,目前该暴露途径下PAHs的健康风险计算主要基于土壤中总PAHs浓度进行计算。但是,这种计算方法并未考虑PAHs在土壤中的赋存状态及经口摄入后在人体不同器官中的毒理动力学过程,导致计算结果过于保守,修复目标过于严格,修复成本过高。针对这一问题国外相关研究人员已开展基于土壤中PAHs生物可利用性的健康风险评价研究并取得较大进展,但在国内就如何在风险评价过程中引入PAHs生物可利用性及其面临的障碍缺乏系统性报道。在对土壤中PAHs赋存形态及其随土壤经口腔摄入后在人体消化及循环系统中的动态分配最新研究成果进行综述的基础上,通过对该暴露途径下现有风险计算模型存在问题及原因进行分析,提出基于土壤中PAHs可利用浓度进行风险计算,并对相应计算模型进行推导以及模型参数的获取方法进行了简要概括,以解决目前模型计算结果过于保守的问题。同时,对于在现有分层次进行场地健康风险评价思路中如何科学地纳入基于土壤中PAHs可利用浓度进行风险计算的思路以及在实际风险评价中应用该思路还需进行的研究工作进行了简要讨论。     

污染场地土壤多环芳烃（PAHs）生物可利用浓度的健康风险评价方法

随土壤不慎经口摄入是PAHs对人体健康造成危害的重要途径之一,目前该暴露途径下PAHs的健康风险计算主要基于土壤中总PAHs浓度进行计算。但是,这种计算方法并未考虑PAHs在土壤中的赋存状态及经口摄入后在人体不同器官中的毒理动力学过程,导致计算结果过于保守,修复目标过于严格,修复成本过高。针对这一问题国外相关研究人员已开展基于土壤中PAHs生物可利用性的健康风险评价研究并取得较大进展,但在国内就如何在风险评价过程中引入PAHs生物可利用性及其面临的障碍缺乏系统性报道。在对土壤中PAHs赋存形态及其随土壤经口腔摄入后在人体消化及循环系统中的动态分配最新研究成果进行综述的基础上,通过对该暴露途径下现有风险计算模型存在问题及原因进行分析,提出基于土壤中PAHs可利用浓度进行风险计算,并对相应计算模型进行推导以及模型参数的获取方法进行了简要概括,以解决目前模型计算结果过于保守的问题。同时,对于在现有分层次进行场地健康风险评价思路中如何科学地纳入基于土壤中PAHs可利用浓度进行风险计算的思路以及在实际风险评价中应用该思路还需进行的研究工作进行了简要讨论。     

苯酐生产氧化反应器组火灾爆炸危险性分析与对策

为预防苯酐生产中最危险部位氧化反应器组发生火灾、爆炸事故 ,详细分析了苯酐生产中氧化反应器组各部位的火灾、爆炸危险性 ,在危险性分析基础上 ,提出了可行的安全对策与措施 ,对苯酐装置的安全生产和管理具有重要的指导意义和参考价值     

用于工业机器设计的安全性分析模式及方法研究

工业机器也属职业事故的重要危险源之一。在其设计时 ,有效地进行安全性分析是消除和控制工业机器中存在的固有危险的最佳途径。为此 ,推荐了一种用于工业机器的安全分析模式 ;并对已有的安全分析方法进行了重点选择 ,将供设计人员使用的安全分析方法从百余种减少到 11种 ;还对这些方法进行了分类 ,可供设计人员在设计工业机器时 ,较方便地选择和系统地应用。     

高原湖泊砷污染健康风险评估

以某高原湖泊为例,以湖水中的砷含量类比推算了从该湖泊取水灌溉区域内水稻和蔬菜的砷含量,对稻米、蔬菜和饮水3种暴露途径进行健康风险评估。结果表明,人群通过摄入区域内稻米、蔬菜的致癌风险系数为可接受的致癌风险,饮用湖水的致癌风险系数为不可接受的致癌风险。     

Ecotoxicological assessment of di use pollution using biomonitoring tool for sustainable land use in Thailand

As a developing country, Thailand has a significant issue with di use pollution of the soil ecosystem due to an indiscriminate use of agrichemicals and poorly regulated disposal of a wide variety of hazardous wastes. Practical risk assessment tools based on locallyoccurring species are needed to assess the e ects of di use pollutants on the soil ecosystem in Thailand because reliance on soil criteria developed for overseas conditions may provide inadequate protection. Native soil organisms in Thailand may be more or less sensitive to contaminants compared to overseas test species. This article described a biological indicator approach for ecological risk assessment of di use pollution in the soil ecosystem of Thailand from pesticide application with the aim of developing standardized protocols using native species and locally generated data to better evaluate the ecological risks of non-point source soil pollution. It was found that ecotoxicological assessment provided a better understanding of the ecological impacts that di use pollution induced on Thai environmental conditions. Thai soil biota species were more sensitive to soil contaminants than similar species overseas. Soil series also had an influence on the ecotoxicology of contaminants to soil biota. Collembolan, Cyphoderus sp., was demonstrated as a useful alternative test species to Folsomia candida (international test species) for terrestrial ecotoxicological testing of Thai soils. In addition, the soil biota activities such as soil respiration and earthworm avoidance including soil biodiversity and the litter bag decomposition technique are also good tools to assess the e ects of di use pollution by pesticides on the soil ecosystem of Thailand.     

Impact of safety attitude,safety knowledge and safety leadership on chemical industry workers’ risk perception based on Structural Equation Modelling and System Dynamics

In chemical industry, major accidents occur occasionally. Past research has demonstrated that risk perception was relevant to safety as it might affect the behavior, which could exert influence on the probability of accidents. It is important to adjust workers' risk perception to reduce accidents in chemical industry. To achieve this goal, some key influencing factors of workers’ risk perception of were identified from 3 aspects including safety attitude, safety knowledge and safety leadership. This was accomplished by gathering empirical data from 287 workers employed in 6 Chemical plants in Jiangsu, China. The model of influencing factors of risk perception for workers was established based on Structural Equation Modelling (SEM), and the path coefficients and weights were analyzed by the SEM. On that basis, the System Dynamics (SD) model of risk perception for workers was established. The study findings revealed safety attitude and safety leadership have a direct positive impact on perception of risk probability and perception of risk severity, safety knowledge has a direct positive impact on perception of risk severity, while safety knowledge has no direct positive impact on perception of risk probability. The findings of the study can provide theoretical supports and method guidance for adjusting the risk perception of workers in chemical industry.     

Natech guide words: A new approach to assess and manage natech risk to ensure business continuity

The risk posed by natural hazards to the technological systems is known as Natech risk. It is different from the more widely known and studied risk posed by such sites to the environment and society. Though currently, available risk assessment techniques recognize Natech, the specific qualitative technique for Natech risk assessment and reduction has not yet been developed. After analyzing past data of Natech accidents, relevant guide words have been suggested in this study. These guide words will help anticipate Natech risk and visualize the Natech scenario. Once the Natech risk is identified, corresponding risk reduction measures can be taken to avoid possible Natech accidents and consequences.     

Synergisms between climate change mitigation and adaptation: an insurance perspective

As the world’s largest industry, the insurance sector is both an aggregator of the impacts of climate change and a market actor able to play a material role in decreasing the vulnerability of human and natural systems. This article reviews the implications of climate change for insurers and provides specific examples of insurance-relevant synergisms between adaptation and mitigation in the buildings and energy sectors, agriculture, forestry, and land use. Although insurance is far from a “silver bullet” in addressing climate change, it offers significant capacity and ability to understand, manage, and spread risks associated with weather-related events, more so today in industrialized countries but increasingly so in developing countries and economies in transition. Certain measures that integrate climate change mitigation and adaptation also bolster insurers’ solvency and profitability, thereby increasing their appeal. Promising strategies involve innovative products and systems for delivering insurance and the use of new technologies and practices that both reduce vulnerability to disaster-related losses and support sustainable development. However, climate change promises to erode the insurability of many risks, and insurance responses can be more reactive than proactive, resulting in compromised insurance affordability and/or availability. Public–private partnerships involving insurers and entities such as the international relief community offer considerable potential, but have not been adequately explored.