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| equipment life cycle analysis: Pump Life Cycle Costs Lars Frenning, 2001 |
| equipment life cycle analysis: Maintenance Excellence John D. Campbell, Andrew K.S. Jardine, 2001-02-13 Considering maintenance from a proactive, rather than reactive, perspective, Maintenance Excellence details the strategies, tools, and solutions for maximizing the productivity of physical assets—focusing on profitability potential. The editors address contemporary concerns, key terms, data requirements, critical methodologies, and essential mathematical needs. They present maintenance in a business context, review planning, measurement, feedback, and techniques related to cost, efficiency, and results, and summarize applications of tools and software from statistics and neural networks to cost-optimized models. |
| equipment life cycle analysis: Engineering Asset Management Dimitris Kiritsis, Christos Emmanouilidis, Andy Koronios, Joseph Mathew, 2011-02-03 Engineering Asset Management discusses state-of-the-art trends and developments in the emerging field of engineering asset management as presented at the Fourth World Congress on Engineering Asset Management (WCEAM). It is an excellent reference for practitioners, researchers and students in the multidisciplinary field of asset management, covering such topics as asset condition monitoring and intelligent maintenance; asset data warehousing, data mining and fusion; asset performance and level-of-service models; design and life-cycle integrity of physical assets; deterioration and preservation models for assets; education and training in asset management; engineering standards in asset management; fault diagnosis and prognostics; financial analysis methods for physical assets; human dimensions in integrated asset management; information quality management; information systems and knowledge management; intelligent sensors and devices; maintenance strategies in asset management; optimisation decisions in asset management; risk management in asset management; strategic asset management; and sustainability in asset management. |
| equipment life cycle analysis: Life Cycle Costing for Facilities Alphonse Dell'Isola, Stephen J. Kirk, 2003-05-30 This comprehensive resource provides expert guidance on how Life Cycle Costing (LCC) can optimize decision-making and enhance long-term profit. Sixteen case studies show how to apply LCC to particular facility types and building components, in a new construction and remodeling. |
| equipment life cycle analysis: Asset Management Excellence John D. Campbell, Andrew K.S. Jardine, Joel McGlynn, 2016-04-19 During the eight years since the publication of Maintenance Excellence: Optimizing Equipment Life-Cycle Decisions the business environment has changed drastically. Globalization, consolidation, and changes in technology challenge asset management and maintenance professionals to be more efficient. Globalization and consolidation have been particula |
| equipment life cycle analysis: Environmental Life Cycle Costing David Hunkeler, Kerstin Lichtenvort, Gerald Rebitzer, 2008-05-29 Balances Scientific and Economic Points of View to Thoroughly Address Management Issues Responding to the need for clarification and benchmarks, Environmental Life Cycle Costing provides the fundamental basis on which to establish a definitive methodology. Clearly defining environmental LCC, this book balances scientific and econom |
| equipment life cycle analysis: Maintenance Costs and Life Cycle Cost Analysis Diego Galar, Peter Sandborn, Uday Kumar, 2017-09-18 Authors have attempted to create coherent chapters and sections on how the fundamentals of maintenance cost should be organized, to present them in a logical and sequential order. Necessarily, the text starts with importance of maintenance function in the organization and moves to life cycle cost (LCC) considerations followed by the budgeting constraints. In the process, they have intentionally postponed the discussion about intangible costs and downtime costs later on in the book mainly due to the controversial part of it when arguing with managers. The book will be concluding with a short description of a number of sectors where maintenance cost is of critical importance. The goal is to train the readers for a deeper study and understanding of these elements for decision making in maintenance, more specifically in the context of asset management. This book is intended for managers, engineers, researchers, and practitioners, directly or indirectly involved in the area of maintenance. The book is focused to contribute towards better understanding of maintenance cost and use of this knowledge to improve the maintenance process. Key Features: • Emphasis on maintenance cost and life cycle cost especially under uncertainty. • Systematic approach of how cost models can be applied and used in the maintenance field. • Compiles and reviews existing maintenance cost models. • Consequential and direct costs considered. • Comparison of maintenance costs in different sectors, infrastructure, manufacturing, transport. |
| equipment life cycle analysis: Life Cycle Analysis and Assessment in Civil Engineering: Towards an Integrated Vision Robby Caspeele, Luc Taerwe, Dan M. Frangopol, 2018-10-15 This volume contains the papers presented at IALCCE2018, the Sixth International Symposium on Life-Cycle Civil Engineering (IALCCE2018), held in Ghent, Belgium, October 28-31, 2018. It consists of a book of extended abstracts and a USB device with full papers including the Fazlur R. Khan lecture, 8 keynote lectures, and 390 technical papers from all over the world. Contributions relate to design, inspection, assessment, maintenance or optimization in the framework of life-cycle analysis of civil engineering structures and infrastructure systems. Life-cycle aspects that are developed and discussed range from structural safety and durability to sustainability, serviceability, robustness and resilience. Applications relate to buildings, bridges and viaducts, highways and runways, tunnels and underground structures, off-shore and marine structures, dams and hydraulic structures, prefabricated design, infrastructure systems, etc. During the IALCCE2018 conference a particular focus is put on the cross-fertilization between different sub-areas of expertise and the development of an overall vision for life-cycle analysis in civil engineering. The aim of the editors is to provide a valuable source of cutting edge information for anyone interested in life-cycle analysis and assessment in civil engineering, including researchers, practising engineers, consultants, contractors, decision makers and representatives from local authorities. |
| equipment life cycle analysis: Life Cycle Management Guido Sonnemann, Manuele Margni, 2015-07-16 This book provides insight into the Life Cycle Management (LCM) concept and the progress in its implementation. LCM is a management concept applied in industrial and service sectors to improve products and services, while enhancing the overall sustainability performance of business and its value chains. In this regard, LCM is an opportunity to differentiate through sustainability performance on the market place, working with all departments of a company such as research and development, procurement and marketing, and to enhance the collaboration with stakeholders along a company’s value chain. LCM is used beyond short-term business success and aims at long-term achievements by minimizing environmental and socio-economic burden, while maximizing economic and social value. |
| equipment life cycle analysis: Life Cycle Assessment and Environmental Impact of Polymeric Products T. J. O'Neill, 2003 This review describes the process of life cycle analysis in some detail. It describes the different organisations involved in researching and applying these techniques and the database resources being used to generate comparative reports. The overview explains the factors to be considered, the terminology, the organisations involved in developing these techniques and the legislation which is driving the whole process forward. The ISO standards relating to environmental management are also discussed briefly in the document. Design for the environment is covered in the report. This review is accompanied by summaries of selected papers on life cycle analysis and environmental impact from the Rapra Polymer Library database. |
| equipment life cycle analysis: Maintenance Costs and Life Cycle Cost Analysis Diego Galar, Peter Sandborn, Uday Kumar, 2017-09-18 Authors have attempted to create coherent chapters and sections on how the fundamentals of maintenance cost should be organized, to present them in a logical and sequential order. Necessarily, the text starts with importance of maintenance function in the organization and moves to life cycle cost (LCC) considerations followed by the budgeting constraints. In the process, they have intentionally postponed the discussion about intangible costs and downtime costs later on in the book mainly due to the controversial part of it when arguing with managers. The book will be concluding with a short description of a number of sectors where maintenance cost is of critical importance. The goal is to train the readers for a deeper study and understanding of these elements for decision making in maintenance, more specifically in the context of asset management. This book is intended for managers, engineers, researchers, and practitioners, directly or indirectly involved in the area of maintenance. The book is focused to contribute towards better understanding of maintenance cost and use of this knowledge to improve the maintenance process. Key Features: • Emphasis on maintenance cost and life cycle cost especially under uncertainty. • Systematic approach of how cost models can be applied and used in the maintenance field. • Compiles and reviews existing maintenance cost models. • Consequential and direct costs considered. • Comparison of maintenance costs in different sectors, infrastructure, manufacturing, transport. |
| equipment life cycle analysis: Environmental Life Cycle Assessment of Goods and Services Chris T. Hendrickson, Lester B. Lave, H. Scott Matthews, 2010-09-30 Environmental life cycle assessment is often thought of as cradle to grave and therefore as the most complete accounting of the environmental costs and benefits of a product or service. However, as anyone who has done an environmental life cycle assessment knows, existing tools have many problems: data is difficult to assemble and life cycle studies take months of effort. A truly comprehensive analysis is prohibitive, so analysts are often forced to simply ignore many facets of life cycle impacts. But the focus on one aspect of a product or service can result in misleading indications if that aspect is benign while other aspects pollute or are otherwise unsustainable. This book summarizes the EIO-LCA method, explains its use in relation to other life cycle assessment models, and provides sample applications and extensions of the model into novel areas. A final chapter explains the free, easy-to-use software tool available on a companion website. (www.eiolca.net) The software tool provides a wealth of data, summarizing the current U.S. economy in 500 sectors with information on energy and materials use, pollution and greenhouse gas discharges, and other attributes like associated occupational deaths and injuries. The joint project of twelve faculty members and over 20 students working together over the past ten years at the Green Design Institute of Carnegie Mellon University, the EIO-LCA has been applied to a wide range of products and services. It will prove useful for research, industry, and in economics, engineering, or interdisciplinary classes in green design. |
| equipment life cycle analysis: Life Cycle Assessment (LCA) and Life Cycle Analysis in Tourism Viachaslau Filimonau, 2015-10-23 Tourism is an activity that anyone can take part in, regardless of their age, gender, nationality or level of income. This makes tourism one of the most rapidly developing industries in the world. Despite the number of benefits which tourism produces, it also has significant negative impacts on the environment. To minimise the scope of these negative impacts, joint efforts combining tourism and environmental management are called for. This book examines the application of the Life Cycle Assessment (LCA) method and lifecycle thinking as a tool to generate more accurate and holistic appraisals of the environmental impacts of tourism. Looking at the issue of sustainability of tourism operations, the book evaluates how it can be improved. It highlights the potential of LCA to affect tourist behaviour and contribute to tourism policy-making and managerial practice. This book provides a valuable resource for undergraduates, postgraduates and researchers interested in sustainable tourism, sustainable development and environmental impact assessment. |
| equipment life cycle analysis: Life-Cycle Analysis of Energy Systems Bent Sørensen, 2011-06-06 Life-cycle assessment of new energy solutions plays an important role in discussions about global warming mitigation options and the evaluation of concrete energy production and conversion installations. This book starts by describing the methodology of life-cycle analysis and life-cycle assessment of new energy solutions. It then goes on to cover, in detail, a range of applications to individual energy installations, national supply systems, and to the global energy system in a climate impact context. Coverage is not limited to issues related to commercial uses by consultants according to ISO norms. It also emphasizes life-cycle studies as an open-ended scientific discipline embracing economic issues of cost, employment, equity, foreign trade balances, ecological sustainability, and a range of geo-political and social issues. A wealth of applications are described and a discussion on the results obtained in each study is included. Example areas are fossil and nuclear power plants, renewable energy systems, and systems based on hydrogen or batteries as energy carriers. The analysis is continued to the end-users of energy, where energy use in transportation, industry and home are scrutinized for their life-cycle impacts. Biofuel production and the combustion of firewood in home fireplaces and stoves are amongst the issues discussed. A central theme of the book is global warming. The impacts of greenhouse gas emissions are meticulously mapped at a depth far beyond that of the IPCC reports. A novel and surprising finding is that more lives will be saved than lost as a direct consequence of a warmer climate. After a 2oC increase in temperature, the reduction in death rates in areas with cold winters would outweigh the increase in the death rates in hot climates. However, this is only one of several impacts from greenhouse gases, and the remaining ones are still overwhelmingly negative. The fact that some population groups may benefit from higher temperatures (notably the ones most responsible for greenhouse gas emissions) whilst others (who did not contribute much to the problem) suffer is one of the main points of the book. The book is suitable as a university textbook and as a reference source for engineers, managers and public bodies responsible for planning and licensing. |
| equipment life cycle analysis: Life-cycle Cost Analysis for Management of Highway Assets Aimee Flannery, Jessica Manns, Marie Venner, 2016 |
| equipment life cycle analysis: Mechanical and Electrical Equipment for Buildings Walter T. Grondzik, Alison G. Kwok, 2019-10-08 The definitive guide to the design of environmental control systems for buildings—now updated in its 13th Edition Mechanical and Electrical Equipment for Buildings is the most widely used text on the design of environmental control systems for buildings—helping students of architecture, architectural engineering, and construction understand what they need to know about building systems and controlling a building's environment. With over 2,200 drawings and photographs, this 13th Edition covers basic theory, preliminary building design guidelines, and detailed design procedure for buildings of all sizes. It also provides information on the latest technologies, emerging design trends, and updated codes. Presented in nine parts, Mechanical and Electrical Equipment for Buildings, Thirteenth Edition offers readers comprehensive coverage of: environmental resources; air quality; thermal, visual, and acoustic comfort; passive heating and cooling; water design and supply; daylighting and electric lighting; liquid and solid waste; and building noise control. This book also presents the latest information on fire protection, electrical systems; and elevator and escalator systems. This Thirteenth Edition features: Over 2,200 illustrations, with 200 new photographs and illustrations All-new coverage of high-performance building design Thoroughly revised references to codes and standards: ASHRAE, IES, USGBC (LEED), Living Building Challenge, WELL Building Standard, and more Updated offering of best-in-class ancillary materials for students and instructors available via the book’s companion website Architect Registration Examination® (ARE®) style study questions available in the instructor’s manual and student guide Mechanical and Electrical Equipment for Buildings, has been the industry standard reference that comprehensively covers all aspects of building systems for over 80 years. This Thirteenth Edition has evolved to reflect the ever-growing complexities of building design, and has maintained its relevance by allowing for the conversation to include ”why” as well as “how to.” |
| equipment life cycle analysis: Life Cycle Assessment for Sustainable Mining Shahjadi Hisan Farjana, M. A. Parvez Mahmud, Nazmul Huda, 2021-01-14 Life Cycle Assessment for Sustainable Mining addresses sustainable mining issues based on life cycle assessment, providing a thorough guide to implementing LCAs using sustainability metrics. The book details current research on LCA methodologies related to mining, their outcomes, and how to relate sustainable mining concepts in a circular economy. It is an in-depth, foundational reference for developing ideas for technological advancement through designing reduced-emission mining equipment or processes. It includes literature reviews and theoretical concepts of life cycle assessments applied in mining industries, sustainability metrics and problems related to mining and mineral processing industries identified by the life cycle assessment results. This book will aid researchers, students and academics in the field of environmental science, mining engineering and sustainability to see LCA technology outcomes which would be useful for the future development of environmentally-friendly mining processes. - Details state-of-the-art life cycle assessment theory and practices applied in the mining and mineral processing industries - Includes in-depth, practical case studies outlined with life cycle assessment results to show future pathways for sustainability enhancement - Provides fundamental knowledge on how to measure sustainability metrics using life cycle assessment in mining industries |
| equipment life cycle analysis: Goal and Scope Definition in Life Cycle Assessment Mary Ann Curran, 2016-09-22 This book describes the importance of the goal and scope phase for the entire LCA study. In this first phase of the LCA framework (ISO standardized), the purpose of the assessment is defined and decisions are made about the details of the industrial system being studied and how the study will be conducted. Selecting impact categories, category indicators, characterization models, and peer review is decided during goal and scope definition. The book provides practical guidance and an overview of LCIA methods available in LCA software. Although not specified in the ISO standards, Attributional LCA and Consequential LCA are presented in order to appropriately determine the goal and scope of an assessment. The book closes with the interconnection between goal and scope definition and the interpretation phase. Example goal and scope documents for attributional and consequential LCAs are provided in the annexes. |
| equipment life cycle analysis: Life Cycle Assessment (LCA) Allan Astrup Jensen, 1998 Life Cycle Assessment |
| equipment life cycle analysis: Designing Sustainable Technologies, Products and Policies Enrico Benetto, Kilian Gericke, Mélanie Guiton, 2018-07-03 This open access book provides insight into the implementation of Life Cycle approaches along the entire business value chain, supporting environmental, social and economic sustainability related to the development of industrial technologies, products, services and policies; and the development and management of smart agricultural systems, smart mobility systems, urban infrastructures and energy for the built environment. The book is based on papers presented at the 8th International Life Cycle Management Conference that took place from September 3-6, 2017 in Luxembourg, and which was organized by the Luxembourg Institute of Science and Technology (LIST) and the University of Luxembourg in the framework of the LCM Conference Series. |
| equipment life cycle analysis: Life Cycle Assessment Kun-Mo Lee, 2004 |
| equipment life cycle analysis: Life Cycle Assessment - Recent Advances and New Perspectives Tamás Bányai, Péter Veres, 2023-10-25 The cradle-to-grave and cradle-to-cradle techniques of life cycle assessment make it possible to analyze the environmental impacts of products associated with natural resource acquisition, purchasing, production, services, assembly, distribution, and use and recycling from raw material extraction to waste management. This book offers a selection of chapters that explain the impact of green supply chain solutions on value-making chains. It is designed to help students at all levels as well as managers and researchers to understand and appreciate the concept, design, and implementation of life cycle assessment. |
| equipment life cycle analysis: Life Cycle Costing for Engineers B.S. Dhillon, 2009-10-26 Cradle-to-grave analyses are becoming the norm, as an increasing amount of corporations and government agencies are basing their procurement decisions not only on initial costs but also on life cycle costs. And while life cycle costing has been covered in journals and conference proceedings, few, if any, books have gathered this information into an |
| equipment life cycle analysis: Life Cycle Cost Analysis Nirjhar Chakravorti, 2024-04-15 Life Cycle Costing (LCC) is the process of economic analysis to assess the total cost of ownership of an asset, including its cost of procurement, installation, operation, maintenance, conversion, and decommissioning. The economic approach to assess the total cost of owning an asset or facility is known as Life Cycle Cost Analysis (LCCA). LCCA is a key economic tool for business decision-making in terms of various functional requirements, such as sustainability, asset management, supply chain management, and project management. Every organization is a combination of various interrelated functions or departments. Every function has its own set of objectives and targets. Even though all functions try to achieve overall organizational objectives, in reality, they work to protect their functional interests as well. In many cases, it becomes detrimental to the health of the organization. This conflicting behavior increases when decisions are made on subjective considerations. When a company's strategy works on an objective platform, chances of conflict are reduced. LCCA can be used as a management decision tool for synchronizing functional conflicts by focusing on facts, money, and time. Life Cycle Cost Analysis: An Economic Model for Sustainable Tomorrow explains a simple, innovative model to carry out LCCA, along with a unique methodology to determine how the value of money changes over a period of time. |
| equipment life cycle analysis: Life Cycle Costing for Design Professionals Stephen J. Kirk, Alphonse J. Dell'Isola, 1995 This revised second edition of the standard reference for design professionals supplies an arsenal of economic weapons for constructing, operating, and managing buildings at the lowest cost possible. Everything professionals need to put the latest construction-related strategies to work is right here in one convenient, quick reference guide. |
| equipment life cycle analysis: Life-Cycle Assessment of Semiconductors Sarah B. Boyd, 2011-10-12 Life-Cycle Assessment of Semiconductors presents the first and thus far only available transparent and complete life cycle assessment of semiconductor devices. A lack of reliable semiconductor LCA data has been a major challenge to evaluation of the potential environmental benefits of information technologies (IT). The analysis and results presented in this book will allow a higher degree of confidence and certainty in decisions concerning the use of IT in efforts to reduce climate change and other environmental effects. Coverage includes but is not limited to semiconductor manufacturing trends by product type and geography, unique coverage of life-cycle assessment, with a focus on uncertainty and sensitivity analysis of energy and global warming missions for CMOS logic devices, life cycle assessment of flash memory and life cycle assessment of DRAM. The information and conclusions discussed here will be highly relevant and useful to individuals and institutions. |
| equipment life cycle analysis: The Power of Renewables Chinese Academy of Engineering, Chinese Academy of Sciences, National Research Council, National Academy of Engineering, Policy and Global Affairs, Committee on U.S.-China Cooperation on Electricity from Renewable Resources, 2011-01-29 The United States and China are the world's top two energy consumers and, as of 2010, the two largest economies. Consequently, they have a decisive role to play in the world's clean energy future. Both countries are also motivated by related goals, namely diversified energy portfolios, job creation, energy security, and pollution reduction, making renewable energy development an important strategy with wide-ranging implications. Given the size of their energy markets, any substantial progress the two countries make in advancing use of renewable energy will provide global benefits, in terms of enhanced technological understanding, reduced costs through expanded deployment, and reduced greenhouse gas (GHG) emissions relative to conventional generation from fossil fuels. Within this context, the U.S. National Academies, in collaboration with the Chinese Academy of Sciences (CAS) and Chinese Academy of Engineering (CAE), reviewed renewable energy development and deployment in the two countries, to highlight prospects for collaboration across the research to deployment chain and to suggest strategies which would promote more rapid and economical attainment of renewable energy goals. Main findings and concerning renewable resource assessments, technology development, environmental impacts, market infrastructure, among others, are presented. Specific recommendations have been limited to those judged to be most likely to accelerate the pace of deployment, increase cost-competitiveness, or shape the future market for renewable energy. The recommendations presented here are also pragmatic and achievable. |
| equipment life cycle analysis: Sustainability Tom Theis, Jonathan Tomkin, 2018-01-23 With Sustainability: A Comprehensive Foundation, first and second-year college students are introduced to this expanding new field, comprehensively exploring the essential concepts from every branch of knowldege - including engineering and the applied arts, natural and social sciences, and the humanities. As sustainability is a multi-disciplinary area of study, the text is the product of multiple authors drawn from the diverse faculty of the University of Illinois: each chapter is written by a recognized expert in the field. |
| equipment life cycle analysis: WEEE Recycling Alexandre Chagnes, Gérard Cote, Christian Ekberg, Mikael Nilsson, Teodora Retegan, 2016-07-26 WEEE Recycling: Research, Development, and Policies covers policies, research, development, and challenges in recycling of waste electrical and electronic equipment (WEEE). The book introduces WEEE management and then covers the environmental, economic, and societal applications of e-waste recycling, focusing on the technical challenges to designing efficient and sustainable recycling processes—including physical separation, pyrometallurgical, and hydrometallurgical processes. The development of processes for recovering strategic and critical metals from urban mining is a priority for many countries, especially those having few available ores mining. - Describes the two metallurgical processes—hydro- and pyro-metallurgy—and their application in recycling of metals - Provides a life cycle analysis in the WEEE recycling of metals - Outlines how to determine economic parameters in the recycling of waste metals - Discusses the socio economic and environmental implication of metal recycling |
| equipment life cycle analysis: Environmentally-Friendly Product Development Eberhard Abele, Reiner Anderl, Herbert Birkhofer, 2007-08-06 Development of environmentally friendly products gains an increasing - portance in science and in industry. While product development was strongly dedicated to achieve quality, cost and time targets, environmental issues indirectly had always been under consideration by engineers, see Fig. 1. Furthermore a methodology for the development of environm- tally sound products was missing. Despite of significant progress in using computer aided tools for product development and design, environmental aspects were attended. Computer aided tools typically do not include methods for considering environmental issues enabling the designer to - sess a product’s environmental effects. Fig. 1. Vision of Environment as a key target for product development v vi Preface Product related environmental issues are getting more and more political and public awareness. Development of environmentally friendly products has become an action item for both, politics and industry (UNFCCC 1997). Energy consumption is on the agenda and covers pollution and resource saving. Typical topics of directives of the European Union are waste, noise, air pollution, water, nature and biodiversity, soil protection, civil protection and climate change. After the translation into national law the development of environmentally friendly products is a basic approach to contribute to the fulfilment of the topics mentioned above. In the European Community a “Communication from the Commission to the Council and the European Parliament” on “Integrated Product Policy” was adopted on th 18 June 2003 (EC 2003). |
| equipment life cycle analysis: Life Cycle Assessment Kathrina Simonen, 2014-04-16 Life Cycle Assessment addresses the dynamic and dialectic of building and ecology, presenting the key theories and techniques surrounding the use of life cycle assessment data and methods. Architects and construction professionals must assume greater responsibility in helping building owners to understand the implications of making material, manufacturing, and assemblage decisions and therefore design to accommodate more ecological building. Life Cycle Assessment is a guide for architects, engineers, and builders, presenting the principles and art of performing life cycle impact assessments of materials and whole buildings, including the need to define meaningful goals and objectives and critically evaluate analysis assumptions. As part of the PocketArchitecture Series, the book includes both fundamentals and advanced topics. The book is primarily focused on arming the design and construction professional with the tools necessary to make design decisions regarding life cycle, reuse, and sustainability. As such, the book is a practical text on the concepts and applications of life cycle techniques and environmental impact evaluation in architecture and is presented in language and depth appropriate for building industry professionals. |
| equipment life cycle analysis: Pavement, Roadway, and Bridge Life Cycle Assessment 2024 Gerardo W. Flintsch, |
| equipment life cycle analysis: Cost Management in Supply Chains Stefan Seuring, Maria Goldbach, 2013-03-09 Supply Chain Management and Cost Management are important developments helping companies to respond to increased global competition and demanding customer needs. Within the 23 chapters of the book, more than 35 authors provide insights into new concepts for cost control in supply chains. The frameworks presented are illustrated with case studies from the automotive, textile, white goods, and transportation industry as well as from retailing. Academics will benefit from the wide range of approaches presented, while practitioners will learn from the examples how their own company and the supply chains which they compete in, can be brought to lower costs and better performance. |
| equipment life cycle analysis: The Fourth Industrial Revolution Klaus Schwab, 2017-01-03 World-renowned economist Klaus Schwab, Founder and Executive Chairman of the World Economic Forum, explains that we have an opportunity to shape the fourth industrial revolution, which will fundamentally alter how we live and work. Schwab argues that this revolution is different in scale, scope and complexity from any that have come before. Characterized by a range of new technologies that are fusing the physical, digital and biological worlds, the developments are affecting all disciplines, economies, industries and governments, and even challenging ideas about what it means to be human. Artificial intelligence is already all around us, from supercomputers, drones and virtual assistants to 3D printing, DNA sequencing, smart thermostats, wearable sensors and microchips smaller than a grain of sand. But this is just the beginning: nanomaterials 200 times stronger than steel and a million times thinner than a strand of hair and the first transplant of a 3D printed liver are already in development. Imagine “smart factories” in which global systems of manufacturing are coordinated virtually, or implantable mobile phones made of biosynthetic materials. The fourth industrial revolution, says Schwab, is more significant, and its ramifications more profound, than in any prior period of human history. He outlines the key technologies driving this revolution and discusses the major impacts expected on government, business, civil society and individuals. Schwab also offers bold ideas on how to harness these changes and shape a better future—one in which technology empowers people rather than replaces them; progress serves society rather than disrupts it; and in which innovators respect moral and ethical boundaries rather than cross them. We all have the opportunity to contribute to developing new frameworks that advance progress. |
| equipment life cycle analysis: Life-cycle Cost Analysis in Pavement Design James Walls, 1998 This Interim Technical Bulletin recommends procedures for conducting Life-Cycle Cost Analysis (LCCA) of pavements, provides detailed procedures to determine work zone user costs, and introduces a probabilistic approach to account for the uncertainty associated with LCCA inputs. |
| equipment life cycle analysis: Reliability and Maintainability Guideline for Manufacturing Machinery and Equipment , 1999 Second Edition. Co-published by SAE and the National Center for Manufacturing Sciences, Inc. This guideline is intended to provide a description of reliability and maintainability (R&M) fundamentals for manufacturing machinery and equipment users and supplier personnel at all operating levels. It embraces the concept of upfront engineering and continuous improvement in the design process for machinery and equipment. The revision includes information to help implement and clarify the activities necessary to build and employ more reliable machinery and equipment. The guideline consolidates R&M terminology, methodology and procurement language, generally accepted by suppliers and users of equipment employed for the manufacture of discrete components. This will help integrate R&M concepts when equipment is designed, and contribute to the reduction of maintenance, warranty and life cycle costs, while increasing equipment availability. Contents include: Section I: Introduction to R&M and its Implementation Introduction to Reliability and Maintainability Implementing R&M Through the Life Cycle Process.Section II: R&M and the Life Cycle Process Use and Supplier R&M Activities in the Concept and Proposal Phase User and Supplier R&M Activities in the Design and Development Phase R&M Activities During the Build and Install Phase R&M Activities During the Operation and Support Phase R&M Activities During the Conversion or Decommission Phase. Section III: Life Cycle Phases and Life Cycle Costs Tailored R&M Program Matrices Sample R&M Tools and Techniques Data tracking and Feedback System Failure Mode and Effects Analysis R&M Training Glossary. |
| equipment life cycle analysis: Life Cycle Assessment Michael Z. Hauschild, Ralph K. Rosenbaum, Stig Irving Olsen, 2017-09-01 This book is a uniquely pedagogical while still comprehensive state-of-the-art description of LCA-methodology and its broad range of applications. The five parts of the book conveniently provide: I) the history and context of Life Cycle Assessment (LCA) with its central role as quantitative and scientifically-based tool supporting society’s transitioning towards a sustainable economy; II) all there is to know about LCA methodology illustrated by a red-thread example which evolves as the reader advances; III) a wealth of information on a broad range of LCA applications with dedicated chapters on policy development, prospective LCA, life cycle management, waste, energy, construction and building, nanotechnology, agrifood, transport, and LCA-related concepts such as footprinting, ecolabelling,design for environment, and cradle to cradle. IV) A cookbook giving the reader recipes for all the concrete actions needed to perform an LCA. V) An appendix with an LCA report template, a full example LCA report serving as inspiration for students who write their first LCA report, and a more detailed overview of existing LCIA methods and their similarities and differences. |
| equipment life cycle analysis: Doing Action Research in Your Own Organization David Coghlan, Teresa Brannick, 2009-10-21 Doing Action Research in Your Own Organization is the essential resource for anyone embarking on a research project in their own organization or as part of a work placement programme whether in business, healthcare, government, education, social work or third sector organizations. The authors provide an easy-to-follow, hands-on guide to every aspect of conducting an action research project and have added in the Third Edition: - more on politics and ethics to help researchers negotiate gaining access and permission, and building and maintaining support from peers and relevant subsystems within an organization - more on writing an action research dissertation, and treatment of sensitive issues such as: giving feedback to one’s superiors and peers, disseminating the research to the wider community, and handling interpretations or outcomes which may be perceived negatively by the organization involved. - more case examples and reflective exercises taken from a wide variety of organizational settings to aid students and researchers whatever their background discipline. |
| equipment life cycle analysis: Bridge Life-cycle Cost Analysis Hugh Hawk, National Cooperative Highway Research Program, 2003 Accompanying CD-ROM contains software, Guidance manual, User manual, and appendixes to report. |
| equipment life cycle analysis: Sustainable Product Development Daizhong Su, 2020-05-12 This book offers a comprehensive review of sustainability and product design, providing useful information on the relevant regulations and standards for industries to meet increasing market demands for eco-products, while reducing their impact on the environment. The examples and methods presented allow readers to gain insights into sustainable products. The authors also explain how to develop products with sustainability features by applying tools and methods for sustainable design and manufacture. These tools/methods include • Regulations/directives related to sustainable product development • Popular lifecycle analysis software packages • Environmental and social lifecycle impact assessment methods • Lifecycle inventory databases • Eco-point and eco-accounting infrastructure • ICT and traceability technologies for sustainable product development • Sustainable design and manufacture • Integrated approach for sustainable product development A description of each sustainability tool is accompanied by easy-to-understand guidelines as well as sustainable product development methods. Five different case studies are also presented to illustrate how to apply the tools and methods into the development of real sustainable products. In view of the increasing pressure on industries to meet the, sometimes conflicting, demands of the market and environment, this book is a valuable resource for engineers and managers in manufacturing companies wishing to update their knowledge of sustainable product development. It is also suitable for researchers and consultants who are involved or interested in sustainable product development, as well as for students studying sustainable development, production, and engineering management. |
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Rhinebeck Equipment Rental | Find Equipment Rentals in Rhinebeck, NY
Quickly find all types of equipment rentals in Rhinebeck from top rated Rhinebeck equipment rental companies. Compare price quotes from a few of the leading Rhinebeck equipment …
Locations – equipmentrentalsny
We have two locations in the Hudson valley to serve your equipment rental needs. We have been in business since 2013 and have a vast inventory of equipment and tools. © 2022 …
New & Used Construction Equipment For Sale | Machinery Trader
Jun 9, 2025 · Machinery Trader is the industry’s prime marketplace for new and used construction equipment for sale.
Home | Equipment Rentals and Sales
Equipment Rentals and Sales is a full-service Hydraulic Hose Center and Repair Service. We offer a wide variety of services to keep your equipment operating smoothly. We guarantee that …
equipmentrentalsny – The Best Equipment Around
Get all of your equipment and tool needs in 1 stop. We offer it all, for contractors and homeowners alike. Top quality, name brand equipment. Why …
RHINEBECK, NY Equipment Rental Locations | United Re…
United Rentals has an incredible selection of industrial tools and equipment of all sizes for any job. …
Equipment Rentals and Sales Inc - Yelp
Equipment and Tool Rentals! We offer the lowest price on delivery… Yelp users haven’t asked any questions …
Great Rates on Equipment Rentals in Rhinebeck, NY | E…
Equipment Rental Pros has an excellent selection of equipment in every size and capacity, making it easy to get the right equipment at the right price. …
Equipment Rentals and Sales Inc. - Chamber of Commerce
Equipment Rentals and Sales Inc. located at 3606 NY-9G, Rhinebeck, NY 12572 - reviews, ratings, hours, phone number, directions, and more.
