建筑安全事故人为因素分类研究

为系统研究导致建筑安全事故的人为因素及对策,首先,在文献分析和专家访谈的基础上结合建筑行业特征提出人为因素分类分析系统（HFACS）框架中应增加社会环境层,在修正框架层次和人为因素的基础上构建建筑安全事故人为因素分类分析系统（C-HFACS）框架;其次,对150起建筑安全事故进行案例分析,探讨C-HFACS框架中对事故影响显著的人为因素及其内在关联性,验证了构建C-HFACS框架的合理性;最后,得出政府监管等九个人为因素对事故和下层人为因素影响显著,并从政府、企业、现场和个体四个维度提出独立第三方“飞行式”巡检等有针对性的对策,以期为建筑安全事故分析和管理提供新的方法和工具。     

重金属对禾谷镰刀菌的生长及毒素合成的影响

以禾谷镰刀菌为研究对象,研究了常见重金属(Cu、Pb、Zn、Cd)对禾谷镰刀菌菌株生长及其毒素合成的影响。研究结果表明,重金属对菌株的生长和其产毒能力均产生影响。Cu~(2+)和Cd~(2+)对菌株生长影响较大,随着浓度的增加对生长的抑制作用增强,当离子浓度分别为20 mg·L~(-1)和40 mg·L~(-1)时,能够完全抑制菌株生长。Zn~(2+)在0~160 mg·L~(-1)浓度范围内促进菌株生长,在10 mg·L~(-1)浓度下促进毒素合成。Pb~(2+)在察氏培养基中对菌株生长的影响没有明显规律可循,但是,随着Pb~(2+)浓度增加,抑制毒素合成作用增强。     

工业废水重金属排放区域及行业分布格局

掌握工业废水重金属污染区域及行业分布格局, 是有针对性开展全国性重金属污染防控的必要前提. GIS空间分析表明, 2003-2010年间, 工业废水重金属Hg、Cd、Pb、As排放主要集中在以湖南为核心、包括江西、云南、广西在内的南方四省区, 和北方甘肃、陕西两省, 而广东、福建、浙江、江苏等东部沿海省区Cr6+排放所占比重较大; 在行业分布格局方面, 南方和北方省区的重金属污染主要与当地有色金属、黑色金属矿采选、冶炼和加工行业密切相关, 而东部沿海地区则更多与当地电子、电器、运输设备制造业、化工、金属制品、纺织、皮革制品等行业密切相关.各地区、不同行业、不同类别重金属排放特征及减排成效存在较大差异, 反映了工业废水重金属防控亟需多学科研究技术支撑.     

Biofuels and agriculture: a past perspective and uncertain future

The US corn ethanol industry has grown from virtually nothing in the early 1980s to over 14 billion gallons in 2011. Subsidies have been an important impetus for the industry, and they have existed in one form or another throughout the life of the industry. This paper provides (1) a brief look at the history of the linkages between energy and agriculture and how they have changed with biofuels; (2) a review of some of the major impacts of the US corn ethanol program; and (3) analysis of prospective impacts of cellulosic biofuels. There is no doubt that biofuels have brought about a new era for global agriculture. Historically, the prices of agricultural and energy products moved in response to supply and demand factors relevant to each market, but moved largely independent of one another. Corn ethanol has changed that, and today there is a link between crude oil and corn that is driven by the demand side. Since agricultural commodity prices are linked both on the demand and supply sides, the corn–crude oil link spills over to other agricultural commodities as well. Development of cellulosic biofuels has been much slower than hoped. The feedstocks are more expensive than initially believed. Conversion technologies remain uncertain and expensive. There are many uncertainties through the cellulosic supply chain, and government policy remains uncertain as well. Thus, the future of the cellulosic biofuels industry is, at this point, an open question.     

China's dairy crisis: impacts,causes and policy implications for a sustainable dairy industry

The dairy industry is an important part of the global economy, and the rapidly developing dairy enterprises in China have become increasingly important to the rest of the world. Due to increasing demand for dairy products and support from the government, China's dairy industry has thrived in recent decades. But rapid growth has been accompanied by a suite of industry/structural problems associated with raw milk supply, processing enterprises, product retailing and profit allocation. Thus, a major dairy crisis took place in 2008, triggered by a notorious melamine-contaminated milk event. The dairy crisis has had devastating impacts on China's dairy industry, negatively affecting farmers, consumers, processing enterprises and even government agencies. The Chinese government has developed rigorous measures to prevent future incidents of this sort, including the enactment of the Food Safety Law and reinstatement of the no-exemption quality inspection of food products. In this paper, we analyse the wide-ranging impacts and root causes of the recent dairy crisis in China. We also examine how the crisis has been handled and what measures have been put in place in its aftermath. Then we discuss policy implications for promoting the sustainability of China's dairy industry. Lessons learned from this crisis, as well as implications for policy improvements, should be valuable for the development of a sustainable dairy industry in other regions of the world.     

An AHP-ELECTRE framework to evaluate barriers to green supply chain management in the leather industry

ABSTRACT

The leather-processing industry (LPI) is constantly polluting the environment in Bangladesh. As a result, stakeholders are continuously pressurizing managers working in LPI to embrace green leather-processing activities. Thus, the green concept is attracting significant attention from managers in the Bangladeshi LPI. However, the industry is struggling with many barriers to implementing green supply chain management (GSCM). There are many studies regarding barriers to GSCM. However, those studies failed to show the possible pathways to implement GSCM. This study addresses the gap by evaluating barriers to GSCM considering effective pathways to GSCM. In this study, the Analytical Hierarchy Process (AHP) is integrated with Elimination Et Choix Traduisant La Realite (ELECTRE-I) method to identify and prioritize the barriers and to rank the possible pathways to implementing GSCM in the leather industry. To accredit the proposed framework, it is implemented on a leather-processing factory in Bangladesh. A sensitivity analysis is performed to inspect the strength of the outcome of this method. The outcome of this study indicates that the high cost of advanced technology is the most important barrier to implement GSCM while green technology and techniques are the most effective pathways to GSCM. The findings of this research will support researchers and practitioners by giving insights on barriers and possible pathways to implementing GSCM.     

湖南文化产业区域差异测度分析及对策研究

在选取了极值比率、加权变异系数、基尼系数、锡尔系数及偏态系数这5个相对差异指标的基地之上,通过对2006年-2011年这6年间湖南14个市州人均文化产业增加值进行计算,发现全省文化产业区域差异呈现出周期性波动,湘西和湘东地区的文化产业差异逐渐拉大,长此以往,将会影响到全省文化产业的整体增速,因此,提出采用均衡发展战略,未来湖南省文化产业的侧重点应该放在缩小湘东、湘中、湘西三个区域的差异上.图20,表9,参5.     

西方国家工业污染场地管理经验及其对中国的借鉴

近年来,随着＂退二进三＂、＂退城进园＂和＂产业转移＂等政策的实施,中国几乎所有的大中城市正面临着重污染工业企业关闭和搬迁问题,城市出现大量工业遗留和遗弃场地。这些受污染的工业场地多存在较为严重的土壤、地表水和地下水污染;另外,工业污染场地的延迟再开发,会产生生活环境变差、就业机会减少、甚至社会不稳定因素增加等社会影响。所以,城市工业污染场地严重威胁着城市人居环境安全和公众健康,阻碍着城市建设和经济发展。面对工业污染场地目前存在的问题,国家及部分地方政府已针对污染场地的管理、修复及其再开发颁布了诸多文件和技术规范标准。然而,由于工业场地类型的多样性和环境管理学科的交叉性,中国城市工业污染场地的环境管理工作仍处于起步阶段,亟需完善。美国、英国和加拿大经过20~30年的发展已经在工业污染场地管理方面积累了丰富的经验,他们不仅在环境管理中体现了人体健康风险评估的理念,而且还立足本国实际出台了相关的法律法规,明确了污染场地的责任主体,实现了＂污染者付费＂的原则,同时还建立了各自的污染场地治理优先名录,实现了污染场地管理的信息化和网络化。本文鉴于对这些经验的比较分析,结合我国实际,就城市工业污染场地的环境管理提出了现阶段亟须解决的两大问题。首先,制定工业污染场地管理的专门法律,明确污染场地的责任主体。我国现有的与污染场地有关的国家法律法规,都比较笼统地提出了污染场地的利益相关方,缺乏具有可操作性的细则和威慑力的责任追究条款。对于我国这样地域辽阔、自然地理条件差异大、经济水平不均衡的国家来说,通过地方法律法规的建立明确污染场地的责任主体是一个重要的尝试。其次,构建污染场地健康风险评估系统。我国城市工业污染场地涉及诸多工业行业、污染类型繁多复杂。因此,在全国范围内对城市工业污染场地进行排查、建立优先污染场地名录是构建污染场地风险评估系统的重要内容。此外,我国现有的土壤质量标准和场地评估规范仍存在诸多缺陷,无法满足当前国家城市工业污染场地的管理需要。所以,完善场地评估的技术规范和相关标准将为污染场地风险评估系统的构建提供基础性保障。本文的论述和观点可为我国工业企业关停或搬迁遗留地的决策管理和污染场地管理体系的建立提供有意义的参考和借鉴。     

鲜甘薯发酵生产燃料乙醇中的降粘工艺

鲜甘薯高浓度发酵生产燃料乙醇的瓶颈之一是醪液粘度高,容易堵塞管路,严重影响工业化生产和增加能源消耗,同时也会降低乙醇发酵效率.为解决此问题,进行了添加降粘酶系及其作用条件优化研究,结果如下:1)确定最适降粘酶系为四川禾本生物工程有限公司的纤维素酶,粘度由1.7×104mPa.s降到8.8×102mPa.s,并且降低了生产成本;2)确定降粘酶作用前高温处理条件:110℃,20 min;3)最适降粘酶对不同品种鲜甘薯高浓度发酵的降粘效果表明降粘酶对大部分品种鲜甘薯降粘效果较好,粘度均约为1.0×103mPa.s以下,最低粘度只有2.7×102mPa.s,粘度下降率均在95%以上;4)在确定最适降粘酶系和其作用前高温条件后,将其应用于工业化生产,加入降粘酶2 h后发酵醪液的粘度由1.8×105mPa.s下降到2.7×103mPa.s,发酵后终粘度仅为7.9×102mPa.s,发酵时间仅为23 h,乙醇浓度达到10.56%(V/V),进一步验证了该降粘酶系应用于工业化鲜甘薯燃料乙醇生产的实际意义.表8参19     

A fuzzy risk assessment approach for occupational hazards in the construction industry

The techniques in the construction industry have been improved due to the rapid development of science and technology. However, the constructional hazards are not decreased as expected. To reduce or prevent occupational hazards in the construction industry, a fuzzy risk assessment method was proposed to provide a prevention and improvement technique against occupational hazards. This method used two-stage quality function deployment (QFD) tables to represent the relationships among construction items, hazard types and hazard causes. A fuzzy analytic network process (ANP) method was developed to identify important hazard types and hazard causes. Failure modes and effect analysis (FMEA) was performed to assess the risk value of hazard causes based on the fuzzy inference approach. The proposed method was applied to a telecom engineering company in southern Taiwan. The performance evaluation result indicated that this method can provide satisfactory risk assessment values of hazard causes and relevant improvement strategies.