1、销售代表 Quantity of material handling equipmentA queuing theory based approach销售代表鸣乐(上海)贸易有限公司查看公司简介粉丝团(4)|公司行业:贸易/进出口批发/零售公司性质:外资(欧美)公司规模:少于50人比比你的竞争力 发布日期:2011-03-21工作地点:上海-卢湾区招聘人数:4工作年限:五年以上语言要求:英语一般学历:大专薪水范围:2000-2999职位描述 本公司为具有悠久历史的德国家族企业在中国的子公司。独家经销并代理欧洲著名品牌镜架。根据业务需要,拟招聘四位销售代表。年龄:3045岁。有同领域经验者为优先
2、考虑。应聘者应能适应每月出差的工作特性。有一定的英文水平。身体健康,无不良嗜好。应具备一定的销售才能,能吃苦耐劳,有独立的工作能力。工作范围:全国中、大城市 1、具有良好的沟通、协调能力和道德素质。 2、 有敏锐的市场洞察力、灵活处理突发事件的能力; 3、 有良好形象、性格开朗、乐观向上,思维敏捷,责任心强,注重工作效率; 4、 为人正直、善于沟通,具有高度的敬业和团队合作精神; 5、 具有较强的活动及组织能力,执行能力、有开拓进取和创新精神。 6、 有良好的团队合作精神和敬业精神。 比比你的竞争力 收藏 推荐给朋友 该公司其他职位 打印 粉丝团(4)|MENRAD -鸣乐是一家拥有四代历史的
3、德国家族企业。如今销售及制造子公司已遍及德国、瑞士、奥地利、荷兰、英国及中国等全球各地。延续四代的家族链以德国人的信守精神展示了 MENRAD -鸣乐家族的百年轨迹。本公司为其在中国的子公司。独家经销并代理德国及欧洲著名品牌镜架。根据业务需要,拟招聘两位销售代表。年龄:2845岁。有同领域经验者为优先考虑。应聘者应能适应每月出差的工作特性。有一定的英文水平。身体健康,无不良嗜好。应具备一定的销售才能,能吃苦耐劳,有独立的工作能力。工作范围:全国中、大城市Building an Executive Information System for Maintenance Efficiency in
4、Petrochemical PlantsAn EvaluationOriginal Research ArticleProcess Safety and Environmental Protection, Volume 85, Issue 2, 2007, Pages 139-146W.T. Hwang, S.W. Tien, C.M. ShuClose preview| Related articles|Related reference work articles AbstractAbstract | Figures/TablesFigures/Tables | ReferencesRef
5、erences AbstractThis study used the manufacturing process in the petrochemical industries as an example and developed a dedicated maintenance programme and executive information system (EIS) for this industry. The software for EIS was established on a CMMS platform, with logical and extractive analy
6、sis used to store the information in a KPI databank. The system developed can provide plant managers and engineers with a complete summary of information and keep them updated regarding the present status of their maintenance efforts. The objective of this study was to establish a management system
7、for maintaining knowledge in the petrochemical industries, such as the management of standard operating procedures (SOPs), historical records and the analysis of data for the facility. To design the software, a review of petrochemical facility was purposed to enhance the maintenance efforts and faci
8、litate the decision-making process. The main functions of the system include asset reliability analysis, failure analysis and maintenance benefit cost analysis. For the petrochemical industry, the impact of safety and environment caused by equipment malfunction is more substantial than that of other
9、 industries. If executives can manage essential points effectively and make decisions according to a key performance index, risks to safety and environment, which result from equipment malfunction, can be decreased and safety can be enhanced for petrochemical refineries.Article OutlineIntroductionRe
10、search Structure DefinitionIndex Establishment and Preliminary DesignSystem Design Index DesignSystem Development Security and user privileges managementSystem structureSystem interfaceData RequirementsFunction RequirementsConclusionsReferencesPurchase$ 31.5052Data center design and location: Conseq
11、uences for electricity use and greenhouse-gas emissionsOriginal Research ArticleBuilding and Environment, Volume 46, Issue 5, May 2011, Pages 990-998Arman Shehabi, Eric Masanet, Hillary Price, Arpad Horvath, William W. NazaroffClose preview| Supplementary content| Related articles|Related reference
12、work articles AbstractAbstract | Figures/TablesFigures/Tables | ReferencesReferences AbstractThe rapidly increasing electricity demand for data center operation has motivated efforts to better understand current data center energy use and to identify strategies that reduce the environmental impact o
13、f these buildings. This paper builds on previous data center energy modeling efforts by characterizing local climate and mechanical equipment differences among data centers and then evaluating their consequences for building energy use. Cities in the United States with significant data center activi
14、ty are identified. Representative climate conditions for these cities are applied to data center energy models for several different prototypical space types. Results indicate that widespread, effective economizer use in data centers could reduce energy demand for data centers by about 2025%, equiva
15、lent to an energy efficiency resource in the US of 1317 billion kWh per year. Almost half of the potential savings would result from better airflow management and proper control sequences. The total energy savings potential of economizers, although substantial, is constrained by their limited potent
16、ial for use in server closets and server rooms, which together are estimated to account for about 30% of all data center energy demand. Incorporating economizer use into the mechanical systems of larger data centers would increase the variation in energy efficiency among geographic regions, indicati
17、ng that as data center buildings become more energy efficient, their locations will have an increasing effect on overall energy demand. Differences among regions become even more important when accounting for greenhouse-gas emissions. Future data center development could consider site location, alon
18、g with efficiency measures, to limit the environmental impact attributable to this increasingly prominent economic sector.Article Outline1. Introduction2. Methods 2.1. Server closets2.2. Server rooms2.3. Localized data centers2.4. Mid-tier data centers2.5. Enterprise data centers2.6. Additional non-
19、IT power loads3. Results and discussion4. Limitations and future research 4.1. Characterization of server closets4.2. Space type distribution of IT energy4.3. Regional distribution of data centers4.4. Greenhouse-gas emissions from data centers5. ConclusionAcknowledgementsAppendix. Supplementary mate
20、rialReferencesPurchase$ 31.5053Strategic planning on carbon capture from coal fired plants in Malaysia and Indonesia: A reviewOriginal Research ArticleEnergy Policy, Volume 37, Issue 5, May 2009, Pages 1718-1735M.R. Othman, Martunus, R. Zakaria, W.J.N. FernandoClose preview| Related articles|Related
21、 reference work articles AbstractAbstract | Figures/TablesFigures/Tables | ReferencesReferences AbstractMalaysia and Indonesia benefit in various ways by participating in CDM and from investments in the GHG emission reduction projects, inter alia, technology transfer such as carbon capture (CC) tech
22、nology for the existing and future coal fired power plants. Among the fossil fuel resources for energy generation, coal is offering an attractive solution to the increasing fuel cost. The consumption of coal in Malaysia and Indonesia is growing at the fastest rate of 9.7% and 4.7%, respectively, per
23、 year since 2002. The total coal consumption for electricity generation in Malaysia is projected to increase from 12.4 million tons in 2005 to 36 million tons in 2020. In Indonesia, the coal consumption for the same cause is projected to increase from 29.4 million tons in 2005 to 75 million tons in
24、2020. CO2 emission from coal fired power plants are forecasted to grow at 4.1% per year, reaching 98 million tons and 171 million tons in Malaysia and Indonesia, respectively.Article Outline1. Introduction 1.1. The clean development mechanism1.2. Can Malaysia and Indonesia benefit from CDM?1.3. Poli
25、cies 1.3.1. Malaysia energy policy1.3.2. Indonesia energy policy1.3.3. Industrialised countries energy policy2. Carbon capture and storage 2.1. CO2 capture2.2. Coal plant and CC 2.2.1. CO2 emission in Malaysia2.2.2. CO2 emission in Indonesia3. Choices of coal fired power plants for Malaysia and Indo
26、nesia 3.1. Capture technologies4. ConclusionsAcknowledgementsReferencesPurchase$ 19.9554Environmental impact assessment of different design schemes of an industrial ecosystemOriginal Research ArticleResources, Conservation and Recycling, Volume 51, Issue 2, August 2007, Pages 294-313Aditi Singh, Hel
27、en H. Lou, Carl L. Yaws, Jack R. Hopper, Ralph W. PikeClose preview| Related articles|Related reference work articles AbstractAbstract | Figures/TablesFigures/Tables | ReferencesReferences AbstractIndustrial ecosystem is an important approach for sustainable development. In an industrial ecosystem,
28、a group of industries are inter-connected through mass and energy exchanges for mutual benefits. However, some mass and energy exchange activities may cause unexpected environmental impacts. Therefore, it is vital to evaluate the environmental impacts of the symbiosis in order to provide a clear gui
29、dance for the decision-makers and stakeholders. The agro-chemical complex in the Lower Mississippi River Corridor with thirteen chemical and petrochemical industries emits huge amount of carbon dioxide. A bi-level design methodology is used to reconfigure this complex for utilizing surplus carbon di
30、oxide. By using a superstructure-based approach, a new design scheme for this industrial ecosystem is proposed. In this paper, an LCA-type environmental impact assessment of different design schemes for this complex is conducted using the software TRACI, a tool developed by the United States Environ
31、mental Protection Agency (USEPA). This analysis compares various environmental impacts of different designs and identifies the potential trade-offs in different environmental impact categories. This information provides deep insight about the environmental sustainability of industrial ecosystems and facilitates the development of the most eco-effective symbiosis for recycle, reuse and resource conservation.Article Outline1. Introduction2. Life cyc
copyright@ 2008-2022 冰豆网网站版权所有
经营许可证编号:鄂ICP备2022015515号-1