Waste handling equipment
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The Annual Meeting is a gathering of experts who work and conduct research in the industrial applications of electrical systems.
2019 IEEE International Conference on Industrial Technology (ICIT)
The scope of the conference will cover, but will not be limited to, the following topics: Robotics; Mechatronics; Industrial Automation; Autonomous Systems; Sensing and artificial perception, Actuators and Micro-nanotechnology; Signal/Image Processing and Computational Intelligence; Control Systems; Electronic System on Chip and Embedded Control; Electric Transportation; Power Electronics; Electric Machines and Drives; Renewable Energy and Smart Grid; Data and Software Engineering, Communication; Networking and Industrial Informatics.
The IEEE Sensors Conference is a forum for presentation, discussion, and exchange of state-of-the art information including the latest research and development in sensors and their related fields. It brings together researchers, developers, and practitioners from diverse fields including international scientists and engineers from academia, research institutes, and companies to present and discuss the latest results in the general field of sensors.
IEEE/SICE SII is the premier symposium series presenting the state of the art and future perspectives of System integration, where industry experts, researchers, and academics share ideas and experiences surrounding frontier technologies, breakthrough and innovative solutions and applications.
WiOpt 2018 welcomes original papers related to modeling, performance evaluation, and optimization of wireless networks. The scope covers all types of wireless networks: cellular, ad hoc, content-driven, delay-tolerant, mesh, metropolitan, sensor, cognitive, vehicular, robotic, Internet of Things, virtualized, etc. The focus is on issues at and above the MAC layer, although cross-layer techniques encompassing the physical layer are equally welcome. We encourage both theoretical contributions and submissions relating to real world empirical measurements, experimental studies.
The IEEE Transactions on Automation Sciences and Engineering (T-ASE) publishes fundamental papers on Automation, emphasizing scientific results that advance efficiency, quality, productivity, and reliability. T-ASE encourages interdisciplinary approaches from computer science, control systems, electrical engineering, mathematics, mechanical engineering, operations research, and other fields. We welcome results relevant to industries such as agriculture, biotechnology, healthcare, home automation, maintenance, manufacturing, pharmaceuticals, retail, ...
Covers topics in the scope of IEEE Transactions on Communications but in the form of very brief publication (maximum of 6column lengths, including all diagrams and tables.)
The design and manufacture of consumer electronics products, components, and related activities, particularly those used for entertainment, leisure, and educational purposes
Design for manufacturability, cost and process modeling, process control and automation, factory analysis and improvement, information systems, statistical methods, environmentally-friendly processing, and computer-integrated manufacturing for the production of electronic assemblies, products, and systems.
The development and application of electric systems, apparatus, devices, and controls to the processes and equipment of industry and commerce; the promotion of safe, reliable, and economic installations; the encouragement of energy conservation; the creation of voluntary engineering standards and recommended practices.
Proceedings of the 1997 IEEE International Symposium on Electronics and the Environment. ISEE-1997, 1997
Efficient demanufacturing operations, with environmentally friendly and safe disposal streams, are being developed and installed to process obsolete and scrap computer and information technology equipment. IBM has designated the Endicott, New York facility as the prime Reutilization Center for IBM owned computer equipment in the United States. This paper gives a brief history and overview of the Endicott demanufacturing process, ...
2006 4th International Symposium on Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks, 2006
The purpose of this paper is to present a general safety analysis of important handling and transportation processes and their related equipment (“load chains” consisting of cranes, load-bearing equipment and load-attaching points). This project was arranged by the responsible Bavarian ministry for environment, health and consumer protection (StMUGV) in agreement with the power plant operators of all Bavarian nuclear power ...
2005 4th International Symposium on Environmentally Conscious Design and Inverse Manufacturing, 2005
Waste electric and electronic equipment (WEEE) is the most rapidly growing waste stream. Further, producer responsibility was enforced in EU member countries during 2005. Most of the WEEE in Sweden is collected at manned recycling centres, which have a key role for the downstream handling in order to ensure high collection rates of WEEE and a proper initial sorting. The ...
Proceedings., Annual Reliability and Maintainability Symposium, 1989
It is shown that a Markov technique can predict the rate of spares failure (stockouts) which prevails for most of the life cycle (after absorption of some initial spares into the spares pipeline). It is also shown that these steady-state failure rates can be combined with standard Markov solutions and arithmetic operations to produce an optimized product-using agency as a ...
2009 International Conference on Education Technology and Computer, 2009
The administrators in Network Center of universities always prepare hardware design, maintenance and upgrading action plan based on their experience. This usually leads to large amount of waste resources and unnecessary budget. To make a smart decision on the action plan, it is necessary to evaluate the relationship of the current hardware and the required quality of service (QOS). However, ...
Material-Handling- Paradigms for Humanoids and UAVs
IEEE Standard 1680: An Incentive to Design Greener Computers
A Nuclear Waste Repository Grows In Finland
Care Innovations: WEEE and RoHs(e-waste) (com legendas em portugues)
Industrial Standards and IoT Use Cases - Talk Four-B: IECON 2018
Industrial Standards and IoT Use Cases - Talk Four-A: IECON 2018
IEEE Future Directions: Green Information and Communications Technology: An Overview
Handling of a Single Object by Multiple Mobile Robots based on Caster-Like Dynamics
Recent Developments in the Sparse Fourier Transform
The IEEE Plagiarism Guidelines
Ciena Corp - IEEE Spectrum Emerging Technology Award, 2019 IEEE Honors Ceremony
Recycling: Computers & Electronics (com legendas em portugues)
Micro-Apps 2013: Creating and Analyzing Multi-Emitter Environment Test Signals with COTS Equipment
Disruptive Internet of Things course, Part 2 - IEEE Smart Tech Workshop
A Flexible Testbed for 5G Waveform Generation and Analysis: MicroApps 2015 - Keysight Technologies
International Broadcast Conference(IBC) News: Segment 4
Technical Tours: Eaton
Penetrating Conductors - EMC Society Demo
IEEE Standards Association: A World Without Standards - Lights Out
Efficient demanufacturing operations, with environmentally friendly and safe disposal streams, are being developed and installed to process obsolete and scrap computer and information technology equipment. IBM has designated the Endicott, New York facility as the prime Reutilization Center for IBM owned computer equipment in the United States. This paper gives a brief history and overview of the Endicott demanufacturing process, its capabilities, and waste management. Additionally, some challenges, methods, and solutions for processing and handling waste are highlighted.
The purpose of this paper is to present a general safety analysis of important handling and transportation processes and their related equipment (“load chains” consisting of cranes, load-bearing equipment and load-attaching points). This project was arranged by the responsible Bavarian ministry for environment, health and consumer protection (StMUGV) in agreement with the power plant operators of all Bavarian nuclear power plants to work out potential safety improvements. The range of the equipment (e.g. reactor building, crane, refuelling machine, load-bearing equipment and load-attaching points covers the handling and transportation of fuel elements (e. g. with fuel flasks), heavy loads (e. g. reactor pressure vessel closure head, shielding slabs) and radioactive materials and waste (e. g. waste flasks, control elements, fuel channels, structure elements). The handling equipment was subjected to a general safety analysis taking into account the ageing of the equipment and the progress of standards. Compliance with the current valid requirements of the state of science and technology as required by German Atomic Act and particularly of the nuclear safety KTA-standards (3902, 3903 and 3905) was examined. The higher protection aims "safe handling and transportation of heavy loads and safe handling of radioactive materials and waste" of the whole analysis are to avoid a criticality accident, the release of radioactivity and inadmissible effects on important technical equipment and buildings. The scope of the analysis was to check whether these protection aims were fulfilled for all important technical handling and transportation processes.
Waste electric and electronic equipment (WEEE) is the most rapidly growing waste stream. Further, producer responsibility was enforced in EU member countries during 2005. Most of the WEEE in Sweden is collected at manned recycling centres, which have a key role for the downstream handling in order to ensure high collection rates of WEEE and a proper initial sorting. The Swedish concept for collection of WEEE is based on manual work which creates risks for the employees. This paper have identified a number of risks in the work environment at recycling centres during handling of WEEE, particularly frequent heavy manual lifting of televisions, white goods and net cages. The personnel especially suffer from ache or pain from the back, and they show a high number of occupational accidents
It is shown that a Markov technique can predict the rate of spares failure (stockouts) which prevails for most of the life cycle (after absorption of some initial spares into the spares pipeline). It is also shown that these steady-state failure rates can be combined with standard Markov solutions and arithmetic operations to produce an optimized product-using agency as a function of product support alternatives (quantities of support equipment, spares and support personnel). Reductions in replenishment time through improved training or equipment will also appear in these models. Therefore the efficiency of product support can be evaluated using these techniques. Their use could sharpen the competitive edge of product support services.<<ETX>>
The administrators in Network Center of universities always prepare hardware design, maintenance and upgrading action plan based on their experience. This usually leads to large amount of waste resources and unnecessary budget. To make a smart decision on the action plan, it is necessary to evaluate the relationship of the current hardware and the required quality of service (QOS). However, although many complex models have been introduced into the research field of high performance network QOS evaluation, it is hard for such method to be applied into production environment because of the random and complex characters of the network traffic and because of the heavy calculation tasks required by the models. The Threshold-crossing Theory based Education Network Traffic Control Method put forward in this paper is able to determine the necessary Education network traffic that have to be handled based on the Education network traffic data in production environment. Therefore, this method is helpful for designing, maintaining and upgrading network equipment and provide basis for reducing resource waste, avoiding unnecessary investment and optimizing resources.
The United States Department of Energy has agreed to ship 15,000 drums of cold war legacy waste from the Idaho National Engineering and Environmental Laboratory (INEEL) to the Waste Isolation Pilot Plant (WIPP). This waste must undergo characterization and certification prior to shipment. The processes required to characterize and certify waste for shipment to WIPP are extremely complex. A simulation model was developed to analyze drum throughput in these various processes. Inputs to the model include process start and stop dates, machine upgrade dates, process times, and process rejection rates. Outputs include machine utilization, buffer storage statistics, truckloads shipped per month, drums shipped per month, and drum inventory by facility. The simulation model continues to facilitate the INEEL strategic and tactical planning needed to accomplish the agreement within the required time frame.
The difficulties in disposing of many millions of tons of nuclear waste, comprising radioactive elements with half-lives ranging from microseconds to eons, are discussed, stressing the global nature of the issue. The IAEA classification of nuclear waste into high, intermediate, and low-level forms is described. The classification is based on several factors, including the waste's source and temperature, and half-life: the greater the number of long- lived radioisotopes the waste contains, the higher the level of waste. Although, overall, wastes from commercial power reactors outweigh those from military ones, military programs produce a huge excess of the high-level type. Methods of reprocessing high-level wastes, the solution most favored in Europe, are examined. Opposition to permanent underground disposal sites, the principal alternative to reprocessing, is discussed. Progress in disposing of low-level wastes is described. The technology of vitrification of high-level wastes and of nuclear fuel reprocessing is examined.<<ETX>>
In recent years, the situation of food safety has been better than before in our country, but we are still facing severe challenge as there are often food safety issues in circulation field, so strengthening food safety management in circulation is the keystone in food safety work in China. 2008 Olympic Games in Beijing and 2010 World Expo in Shanghai will further promote economic development, in which food safety is very important. There is much food safety experience and measures to ensure food circulation safety abroad well worthy of our learning. HACCP Certification System is generally applied in the world and is helpful to strengthen food safety in the circulation of our country. Through analysis of factors causing food safety hazards, this thesis puts forward the existing food safety issues in the circulation field of our nation and focuses on research how HACCP enhances the safety of food circulation.
Proliferation in the growth and use of new technologies is making radical changes to our society and generating a major change in human behaviour. Accelerated production of e-technologies is creating not only new exciting advances but also a darker side where there are major issues of sustainability. Owing to the exponential growth in the development of new e-technologies and mobile devices, the demand for new upgrades has created a bottomless cavern for excessive waste. This paper attempts to raise awareness of sustainability issues and considerations that these advancing technologies present. The paper begins with a broad survey of the current relationship between technological progress and sustainability. This is followed by a review of the history of the relationships between ethics and technological development, showing how the ethical focus has changed over time and in response to major societal concerns, sustainability being one of the major twenty-first century concerns. The paper then examines issues of sustainability in more detail, and poses the question of how the individual concerned with producing systems and artefacts that have their basis in electronic and computational technology may engage with these issues. The important question of the blurring of boundaries is also raised, since this affects cultural attitudes to ethical imperatives. Following a review of the ways in which ethical concerns may be perceived as affecting the individuals involved, the Culturally negotiated ethical triangle is presented as what is hoped will be a useful tool for all those concerned with negotiated approaches to issues of sustainability.