A New Approach Toward Natural and Anthropogenic Risk Assessment of Gas Power Plants

The current study focuses on identification and prioritization of the most important risks affecting a gas power plant located in southern Iran that was selected as a case study. After identifying risky activities, plant operations, and natural disasters, a Delphi questionnaire was prepared to specify crisis and accident-prone centers that could lead to the plant's destruction. After analyzing the questionnaires, the final criteria were determined. Subsequently, multi-criteria decision-making methods including the technique for order preference by similarity to ideal solution (TOPSIS) and analytical hierarchy process (AHP) were applied to prioritize the identified criteria. The relative weights of the criteria were calculated using the eigenvector method in the environment of MATLAB and Expert Choice. In some cases, there was no correlation between the obtained results, resulting in a novel integrated technique consisting of three methods: average, Borda, and Copeland were used to reach a consensus for prioritizing the criteria. The risk assessment results indicate that gas and oil pipes, dust storm, and terrorism have the first to third priorities among the other risks. Some strategies are proposed to control and mitigate the identified risks.     

Validation plan of bone marrow collection,processing and distribution using the failure mode and effect analysis methodology: a technical report

Background aimsBone marrow (BM) is commonly used in the pediatric and adult setting as a source of hematopoietic stem cells (HSCs). The standards of the Joint Accreditation Committee of the International Society for Cell & Gene Therapy & European Society for Blood and Marrow Transplantation (JACIE) include specific requirements regarding BM collection, processing and distribution. To run this process, each transplant team develops a series of JACIE-compliant procedures, customizing them with regard to local settings and paths. Moreover, JACIE standards require that transplant teams validate and periodically revise their procedures to keep the entire process under control. In this article, the authors describe the methodology adopted in our center to fulfill the aforementioned JACIE requirements.MethodsThe authors developed a validation plan based on the failure mode and effect analysis (FMEA) methodology. According to the FMEA approach, the authors carefully revised activities and procedures connected to BM collection, processing and distribution at our institution. The entire process was initially divided into five main phases (assessment of donor eligibility, perioperative autologous blood donation, preparation of BM collection kit, BM harvesting and BM processing and distribution), comprising 17 subphases and 22 activities.ResultsFor each activity, one or more failure modes were identified, for a total of 28 failure modes, and a risk priority number (RPN) was then assigned to each failure mode. Although many procedures were validated, others were subjected to substantial changes according to the RPN rating. Moreover, specific indicators were identified for subsequent monitoring to contain the risk of failure of steps emerging as critical at FMEA.ConclusionsThis is the first study describing use of the FMEA methodology within an HSC transplant program. Shaping the risk analysis based on local experience may be a trustworthy tool for identifying critical issues, directing strict monitoring of critical steps or even amending connected procedures. Overall, the FMEA approach enabled the authors to improve our process, checking its consistency over time.     

A Novel Approach Toward Natural and Anthropogenic Risk Assessment of Gas Power Plants

The current study focuses on identification and prioritization of the most important risks affecting a gas power plant located in southern Iran that was selected as a case study. After identifying risky activities, plant operations, and natural disasters, a Delphi questionnaire was prepared to specify crisis and accident-prone centers that could lead to the plant's destruction. After analyzing the questionnaires, the final criteria were determined. Subsequently, multi-criteria decision-making methods including technique for order preference by similarity to ideal solution (TOPSIS) and analytical hierarchy process (AHP) were applied to prioritize the identified criteria. The relative weights of the criteria were calculated using the eigenvector method in the environment of MATLAB and EXPERT CHOICE. In some cases, there was no correlation between the obtained results, resulting in a novel integrated technique consisting of three methods: average, Borda, and Copeland was used to reach a consensus for prioritizing the criteria. The risk assessment results indicate that gas and oil pipes, dust storm, and terrorism have the first to third priorities among the other risks. Some strategies are proposed to control and mitigate the identified risks.     

基于FMEA和POSSUM评分的手术风险评估研究

??????? 目的 研究建立手术风险评估的架构,以正确决策手术时机。方法 采用用于计数死亡率和并发症发生率的生理学和手术严重性（POSSUM）评分原理进行分层计分,同时引用失效模式与效应分析方法对手术可能发生故障模式的严重度及发生可能性及风险因素的影响度3个维度进行评估。结果 建立了手术前风险预警机制及手术评估架构,利用评估架构对某综合医院2010年200例80岁高龄的手术病人进行了术前评估,结果手术后并发症的发生率较2009年同年龄的手术病人的并发症下降了10.45%。结论 在手术前对手术相关因素进行评估,可以为手术时机的选择提供参考。     

失效模式与效应分析在化疗药物安全输注中的应用

目的运用失效模式与效应分析（FMEA）降低化疗药物输注过程中的风险,保证输注安全。方法根据FMEA方法,成立项目小组;制定操作流程图,进行失效模式与潜在风险原因分析,计算优先风险指数（RPN）;找出失效模式及原因;进行措施改进。结果 2012年1~5月与前年同期比较,化疗药物外渗和静脉炎的发生率差异有统计学意义（0.1%vs 0.6%;0.6%vs 1.5%,P〈0.05）。结论 FMEA应用于化疗患者,能显著降低静脉炎和药物外渗发生的风险,保证患者安全。     

基于失效模式与效应分析法的临床药学服务风险研究

目的 探讨临床药学服务过程中的风险及引起风险的主要原因,通过一定的方式规避风险。方法 应用失效模式与效应分析法对临床药学服务模式进行风险识别管理和研究。结果 分析得出临床药学服务模式共计15项流程,21项失效环节,对其中排名靠前的高危风险提出了相应的干预措施。结论 失效模式与效应分析法可以前瞻地有效地识别高危风险,并结合风险产生的原因,针对性地采取干预措施,从而最大程度地规避风险的发生。     

Assessment of occupational hazards and associated risks in fuzzy environment: A case study of a university chemical laboratory

University laboratories involve various occupational hazards during the research and course activities, which might affect health and safety of both researchers and students, including chemical, physical, electrical, mechanical, as well as ergonomic and psychosocial risk factors. There are many aspects open to improvements in Occupational Health and Safety management of laboratories, and it is required to deal with risks, reduce them in an acceptable level, and implement control measures. In this study, a risk assessment approach is proposed for the university laboratory operations. The proposed approach incorporates 5S methodology, failure modes and effects analysis (FMEA), interval type-two fuzzy sets (IT2FSs), analytic hierarchy process (AHP), and the VlseKriterijumska Optimizacija I Kompromisno Resenje (VIKOR). AHP is injected into IT2FSs in the phase of evaluation and weighting of severity (S), occurrence (O), and detectability (D) parameters of FMEA. By applying IT2FVIKOR, it is aimed at prioritizing the emerged hazards in the chemical laboratory of the observed university. The proposed approach reveals the important hazards and suggests control measures for managing them. The study methodologically contributes to risk assessment in the knowledge, while a case study in a chemical laboratory of a newly established university offers an insight into education industry in safety improvement.     

Use FMEA method for environmental risk assessment in ore complex on wildlife habitats

Human activities are the most effective cause of wildlife habitat destruction and loss of quality. Some of these activities are the construction, operation, and utilization of mines. The present study investigates factory activity in the GolGoharSirjanOre Complex (Kerman province) and environmental risk assessment of the activities done by this complex on wildlife habitat. In order to identify the significant aspects of the complex, the Failure Mode and Effects Analysis (FMEA) method is used. To determine the risk priority number, the significant aspects resulted from the multiplication of the criteria including probability of occurrence, the probability of detection, and severity of the effect. Based on the results of the current study, most of the activities of GolGoharSirjan Complex can have a significant adverse impact on the habitat of birds such as bustard Chlamydotisundulata (Vulnerable [VU]) and Podocespleskei, and mammals such as Striped Hyaena (Hyaenahyaena) (Near Threatened [NT]) and Capra aegagrus (Wild Goat) (VU). Some of the most important activities related to the activity include: Crusher (Risk Priority Number [RPN] = 720), the concentration of iron ore (RPN = 640), mining (RPN = 486), Stalker and Reclaiming (RPN = 504), and the transport of heavy machinery (RPN = 432). Significant aspects such as the emission of dust into the air; Nitrogen Oxide (NOX), Sulphur Oxide (SOX), and Hydrogen Sulfide (H2S) gas emissions to air; vibration; noise; and industrial waste discharges significantly influence the environment. The results of measurements of environmental pollutants that are carried out by reliable environmental laboratories have shown that the amount of pollutants mentioned are above the standard limit determined by the Iranian Department of Environment.     

Environmental risk assessment of dams at constructional phase using VIKOR and EFMEA methods (Case study: Balarood Dam,Iran)

Abstract

The purpose of this study was to assess the environmental risk of Balarood Dam in Iran at constructional phase. The scientific methods used in this research were the Environmental Failure Mode and Effects Analysis (EFMEA) and VIKOR. In the process of environmental risk assessment, the EFMEA method was used first to calculate the risk priority number (RPN) for each environmental aspect. The identified risks were ranked based on RPN values in the next stage. Comparison of the RPN values showed that the risk of pollution of Balarood River, with a RPN of 125, is in the first priority. In addition, the environmental risks, identified during the follow-up phase, were weighted by entropy method based on severity, occurrence probability, and extent of pollution.Then, the VIKOR method, as one of the multicriteria decision-making (MCDM) methods, was run to evaluate and prioritize the potential environmental risks. The risk of water pollution under high, medium and low conditions, with a weight of 1,300, 1,000 and 700, was identified as the most important risk of dam construction. Accordingly, the most important corrective action, proposed to mitigate the high priority environmental risks, is to prevent the discharge of sanitary and industrial wastewater into the river.     

基于氮排放估算的区域生态风险评价——以中国台湾地区为例

随着全球人口不断成长,农业生产、工业发展、能源消耗及生活消费等人类活动不断增加,对城市区域乃至于区域生态系统均带来显著负面影响。为量化评估人类活动对区域生态系统的影响,以人类活动产生的氮排放为切入点,选择中国台湾地区为研究区,针对其高投入的农业生产、密集的交通工业设施及人口分布等背景,构建了基于氮排放的区域生态风险评价研究框架。分析了2001年至2010年中国台湾地区农业及城市系统所产生的氮排放变化情况,并在空间上比较了各县市的氮排放差异;其次,依据各用地类型特点,定义了其对氮排放压力的脆弱程度,藉以评估中国台湾地区生态风险变化及其潜在风险强度。研究结果表明中国台湾地区2005至2010年期间氮排放带来的生态风险值先降后升,主要原因源于期间农业活动产生的氮排放减少,但交通运输带来能源消耗却明显增加了氮排放;通过分区比较,确定低风险县市主要包括金门县、连江县、澎湖县、新竹市、嘉义市及基隆市,而台中市、屏东县、台南市、高雄市及新北市,由于农业生产活动密集且人口分布密度高,为中国台湾地区高生态风险区。     

Reverse Logistics Network Design under the Risk of Hazardous Materials Transportation

ABSTRACT

An effective reverse logistics network design (RLND) has several implications, such as decrease in logistics costs and environmental damage. Some products in the RL may contain hazardous substances. In such cases, the environmental aspects of RLND should be identified considering the risks of hazardous materials transportation.

In this study, a holistic approach is employed involving the forecasting of return amount of products, risk modeling of hazardous materials transportation, and capacitated plant location modeling under risk. An application for the reverse logistics of large household appliances in Turkey, which is aiming to implement the European Union directive for waste electric and electronic equipment, is presented. First, the decisions of suitable places for treatment facilities and the assignments of the returned products to these facilities are made without considering the risk factor. In this case, the objective is to minimize the total logistics costs. In the second case, risk factors are incorporated in the model and the objective is defined as the minimization of the costs and hazmat transportation risks. It is seen that different locations and allocation decisions are obtained for the case without considering the risk and the case under risk of hazmat transportation.     

Life cycle assessment of retaining wall backfilled with shredded tires

Purpose

This life cycle assessment (LCA) study compares energy consumption, greenhouse gas emissions, and environmental damages for two methods of constructing retaining structures, a traditional method involving a retaining wall backfilled with sand, and an alternative method involving a retaining wall backfilled with shredded tires.

Methods

Taking into account the extraction and production of the used construction materials, loading, transport and installation, the cumulative energy demand (CED), global warming potential (GWP), acidification potential, Human Health Criteria Air-mobile, aquatic eutrophication potential, ozone depletion potential, and smog potential is determined for each construction method. The seven environmental impact categories are calculated using the software tool, ATHENA® Environmental Impact Estimator (ATHENA® EIE) for Buildings v5.2.0118.

Results and discussion

The seven impact categories were reduced significantly by using shredded tires as retaining wall backfill; this is due to the decrease in the amounts of concrete, reinforcing steel, and fuel quantity consumed by building machines and vehicles transporting construction materials.

Conclusions

The study concludes that in all examined impact categories alternative method provides a larger environmental benefit than the traditional method. Also, the results clearly demonstrate that the use of shredded tires is very effective as a sustainable alternative to retaining structures.

     

Application of a Multi-Criteria Decision-Making Approach for Ranking Environmental Risks Caused by Petrochemical Industries: A Case Study of a Sodium Carbonate Production Unit

The occurrence of accidents in petrochemical industries that cause environmental catastrophes has persuaded experts to use risk-oriented approaches. The approach is to rank the key elements of risk assessment by which the priority of each risk is specified compared to the other ones. The present study was performed to test the applicability of a multi-criteria decision-making approach for prioritizing environmental risks of a petrochemical complex in southwestern Iran. Accordingly, all risky activities of the Sodium Carbonate Production Unit (SCPU) were identified initially. Afterward, the relevant environmental components affected by the risky activities were specified. According to the specification, the most significant risks were shortlisted using experts’ judgment based on three criteria: “impact intensity,” “occurrence probability,” and the “extent of contamination dispersion in the environment.” The shortlisted environmental risks were then prioritized by the Method “Elimination et Choice Translating Reality (Elimination and Choice Expressing Reality)” abbreviated as ELECTRE. Based on the obtained results, “decreased air quality” and “manpower health threatening” are the top-priority risks while “poor quality of groundwater” was identified as the least priority risk. In a general conclusion, a multi-criteria decision-making approach is quite useful for assessing environmental risks of petrochemical industries.     

A life cycle assessment study of a Canadian post-combustion carbon dioxide capture process system

Purpose

While carbon dioxide capture and storage (CCS) has been widely recognized as a useful technology for mitigating greenhouse gas emissions, it is necessary to evaluate the environmental performance of CCS from a full life cycle perspective to comprehensively understand its environmental impacts. The primary research objective is to conduct a study on life cycle assessment of the post-combustion carbon dioxide capture process based on data from SaskPower’s electricity generation station at the Boundary Dam in Saskatchewan, Canada. A secondary objective of this study is to identify the life cycle impact assessment (LCIA) methodology which is most suitable for the assessment of carbon dioxide capture technology integrated with the power generation system in the Canadian context.

Methods

The study takes a comparative approach by including three scenarios of carbon dioxide capture at the electricity generation station: no carbon dioxide capture (“no capture”), partial capture (“retrofit”), and fully integrated carbon dioxide capture of the entire facility (“capture”). The four LCIA methods of EDIP 97, CML2001, IMPACT2002+, and TRACI are used to convert existing inventory data into environmental impacts. The LCIA results from the four methods are compared and interpreted based on midpoint categories.

Results and discussion

The LCA results showed an increase in the retrofit and capture scenarios compared to the no capture scenario in the impact categories of eutrophication air, ecotoxicity water, ecotoxicity ground surface soil, eutrophication water, human health cancer ground surface soil, human health cancer water, human health noncancer ground surface soil, ozone depletion air, human health noncancer water, and ionizing radiation. The reductions were observed in the retrofit and capture scenarios in the impact categories of acidification, human health criteria air-point source, human health noncancer air, ecotoxicity air, global warming, human health cancer air, and respiratory effects.

Conclusions

Although the four LCIA methodologies significantly differ in terms of reference substances used for individual impact categories, all (TRACI, IMPACT2002+, CML2001, and EDIP 97) showed similar results in all impact categories.     

Safety,Health, and Environmental Risk Assessment of a Gas Power Plant: A Case Study from Southern Iran

This research was conducted to assess health, safety, and environmental risks of a gas power plant in southern Iran. In order to identify the subject risks of the power plant at operational phase a questionnaire was designed using the Delphi method. The questionnaires were put at the disposal of 99 electricity industry experts. Risk assessment was done using multicriteria decision-making methods such as technique for order of preference by similarity to ideal solution (TOPSIS), entropy, and Eigenvector technique. Following prioritization of risks at each power plant unit, top-priority risks were determined by one-way ANOVA. The obtained results indicated that the risk of working with medium voltage boards with a weight of 0.879 at the power plant's Electricity Unit is the most important safety and health risk in the studied power plant while risk of servicing the unit with fuel of gas weighting 0.807 and delivery of gas fuel with weight of 0.630 in the Exploiting Unit and work on liquid fuel clutch with weight of 0.603 in the Mechanical Unit are the most important environmental risks in the gas power plant. In conclusion, this study concludes that health, safety, and environmental risk assessment can be a structured and used as a systematic approach to plan for environmental protection and personnel health.     

Hierarchical Activity Model for Risk‐Based Decision Making

For the practical implementation of the assessment of environmental impact, actual procedures and data requirements should be clarified so that industrial decision makers understand them. Researchers should consider local risks related to processes and environmental impact throughout the life cycle of products simultaneously to supervise these adverse effects appropriately. Life cycle assessment (LCA) is a useful tool for quantifying the potential impact associated with a product life cycle. Risk assessment (RA) is a widely used tool for identifying chemical risks in a specific situation. In this study, we integrate LCA and RA for risk‐based decision making by devising a hierarchical activity model using the type‐zero method of integrated definition language (IDEF0). The IDEF0 activity modeling language has been applied to connect activities with information flows. Process generation, evaluation, and decision making are logically defined and visualized in the activity model with the required information. The activities, information flows, and their acquisitions are revealed, with a focus on which data should be collected by on‐site engineers. A case study is conducted on designing a metal cleaning process reducing chemical risks due to the use of a cleansing agent. LCA and RA are executed and applied effectively on the basis of integrated objective settings and interpretation. The proposed activity model can be used as a foundation to incorporate such assessments into actual business models.     

城市综合生态风险评价——以淮北市城区为例

城市面临复杂的生态风险,为了保障城市安全,需要对单一灾害或污染源的生态风险评估结果进行整合。基于城市复合生态系统特性,将当前城市地域常见的生态风险区分为自然灾害、环境污染及生态退化等3种主要类型,以土地利用单元作为风险受体,整合自然、人文、景观及环境因子,在现有生态风险评价研究方法基础上,构建了城市综合生态风险评价的空间分析框架。研究中选择淮北市城区作为研究区,针对研究区内存在的洪涝、干旱、水污染、大气污染、采煤塌陷及生态服务降低等生态风险类型,定量评价其空间差异,并提出相应的风险防范措施。案例分析结果表明,研究区综合生态风险较高的区域包括龙河、岱河、龙岱河与闸河等过境河流流经塌陷密集带的河段,北湖、东湖、中湖及南湖等人工湖泊沿岸,化家湖湖岸,及土型、新蔡、北杨新杨煤矿及其外围地区。由降低生态风险保障城市生态安全角度,在未来城市的整体规划中,建议结合城市外围绿地与城市内部的高风险区域,划设禁建或限建区域,共同构建淮北城市生态风险防范的空间结构。     

Spatiotemporal assessment of rainstorm hazard risk in Qinling mountains of China

Rainstorms are natural hazards, and they create hurdles in many parts of the world. They often cause damages to the life, properties, and human activities. The Qinling Mountains of China are among the few areas that are extremely hit by the rainstorms, but their hazard risks have not fully been assessed. This article takes an attempt to fill this gap by providing a comprehensive spatiotemporal risk assessment for the area. By using the geographic information system-enhanced Analytical Hierarchy Process assessment framework and the comprehensive index model, the rainstorm hazard risks can be evaluated from four different aspects. At last, the comprehensive rainstorm hazard risks have been assessed and zoned. Results indicate that with regional climate change, the frequencies of rainstorm have slightly increased over the past period of 46 years, and rainstorm hazard risks become higher on the whole. As a strong seasonal variation in the rainstorm days, the highest rainstorm hazard risks occur in July annually. The comprehensive rainstorm hazard risks in the southern regions of the Qinling Mountains are obviously higher than those in the northern regions. The Hanzhong and Ankang basins along the Hanjiang River are under the highest risk of rainstorms. The big cities of Xi'an and Baoji, piedmont plain and regions with good transportation, are under the lowest risk. The spatial distribution of rainstorm hazard risk shows that it has certain regulations along the rivers, ridges, and valleys, but it may be affected by the factors of rainfall and human activities. This article is significant for strategic environmental planning and hazard emergency management of the study area as well as in similar climatic regions of the world.     

Finding fault with health risk assessment: A typology for risk assessment criticism

Although systematic, quantitative assessment of environmental health risks is a staple of regulatory decision-making, complaints regarding its perceived failures and shortcomings are an intrinsic feature of the policy landscape. In this article, we (a) catalog the classic criticisms of conventional health risk assessment, (b) create a typology that orders the critiques according to their focus on either input errors or output biases, and (c) identify selected allegations that fall within each category. We also note that the risk assessment–risk management paradigm has evolved over the past several decades, partially in accordance with the general direction and spirit of these classic critiques. The debate continues today along familiar lines invoking the traditional critiques and rebuttals outlined here.