Relevant bibliographies by topics / Power wastage

Academic literature on the topic 'Power wastage'

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Published: 6 September 2023

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Journal articles on the topic "Power wastage"

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Lu, Di, Jian Xin Wang, and Jia Feng Li. "Analysis of the Optimal Value for Transmission System of Reactive Load Compensation." Applied Mechanics and Materials 157-158 (February 2012): 1104–10. http://dx.doi.org/10.4028/www.scientific.net/amm.157-158.1104.

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In this paper, Describing the type and characteristics of transmission system’s reactive power compensation. The purpose of reactive power compensation can improve system power factor, reduce losses, improve power quality and reduce the capacity and investment of the power equipment system. It especially discussed the increase of reactive power, which can increase the wastage of transmission system; at the same time enhance the voltage decrease. In order to decrease main equipment’s wastage of reactive power—wastage of electromotor, got the optimal charge ratio and efficiency of electromotor. Calculated the absorbed value of reactive power of transformer by the given charge, and got optimal charge ratio of transformer. And it discussed the compensation from non-uniformity net to uniformity net, and the work principle of system compensation. It would make the transmission line’s power with the lowest wastages under condition of fixed charge value and web structure. Through the configuration software development, can make the system more secure and reliable.
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OJ, Femi-Jemilohun, and Oluwafemi IB. "MITIGATION OF POWER WASTAGE IN THE DISTRIBUTION NETWORK." International Journal of Engineering Applied Sciences and Technology 6, no. 7 (November 1, 2021): 81–86. http://dx.doi.org/10.33564/ijeast.2021.v06i07.014.

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Electricity power supply in Nigeria is grossly inadequate due to shortage in production capacity and consequent shortage in the transmitted and distributed networks of the sector. This has greatly hampered the standard of living of the citizenry. The wastage of the scarce distributed power due to negligence of the electricity consumers by leaving on the lighting systems around the homes in broad day light has been a concern in the research industry. This paper focuses on the way to curb this menace among the electricity consumers. A device to mitigate power wastage among shortage of same was constructed. This device when applied at the distribution network will automatically control the lighting system of the environment when it senses radiation from sunlight indicating daylight or darkness indicating dark hour of the day thereby curbing the incessant power wastage through lighting in broad day light and reserves the available distributed power to meaningful use by the consumers.
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Hu, J. Z., Shi Ning Ma, and X. R. Chen. "Erosion Wastage at High Temperature for Arc Spraying Coatings." Key Engineering Materials 373-374 (March 2008): 605–8. http://dx.doi.org/10.4028/www.scientific.net/kem.373-374.605.

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A new novel cored wire for producing FeCrAl/WC intermetallic coating by arc spraying was developed. The erosion wastage at high temperature of the coating was researched with different impingement angles and temperatures. The results indicated that impingement angle and temperature greatly affected erosion wastage of the coating. At the same time, when impingement angle was 90°, different temperature had a little effect on the erosion wastage. And when temperature was 650°C, different impingement angle had a little effect on the erosion wastage too. As compared with water wall tube material (G20 steel) of power station boiler, the erosion resistance at high temperature of the coating was higher. The erosion resistance rate of the coating was 1.94~2.89 times of that of G20 steel when temperature was 650°C and particle was polygonal silica. The results indicated that erosive condition of high temperature flue gas and fly ash mixture in boiler tube of pulverized coal fired power station could be solved with the FeCrAl/WC coating.
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Halmare, Mr Abhay, Shreya Damodhar Zade, Simran Ramkrushna Parchake, and Ritesh Siddharth Borkar. "Power Genration Using By Peltier Module." International Journal for Research in Applied Science and Engineering Technology 10, no. 4 (April 30, 2022): 2099–101. http://dx.doi.org/10.22214/ijraset.2022.41392.

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Abstract: Purpose of making this project is to generate electrical energy from bad materials cow dung , dry paddy fields, dry leaf and bad stuff etc. and store that electrical energy in the battery through the circuit and use that electrical energy to operate the whole project. And the LED bulb is shown to be turned on and the use of filters to control pollution from energy production .So in this our Project we show successfully How to generate electricity by Waste Materials And Store electricity in Battery successfully. The main aim behind this project is to reduce the pollution, and recycle the wastage and reuse them and finally to produce the electricity from waste. Energy harvesting is the main focus of the researchers all over the world. It is because of deployment of million sensor nodes and bottleneck of battery. This method avails various methods like piezoelectric, electromagnetic, solar and thermoelectric. Keywords: LED (Light emitting diode), Electromagnetic, Thermoelectric, Voltage, Sag, Piezoelectric, Power Quality
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Halmare, Mr Abhay, Shreya Damodhar Zade, Simran Ramkrushna Parchake, and Ritesh Siddharth Borkar. "Power Genration Using By Peltier Module." International Journal for Research in Applied Science and Engineering Technology 10, no. 4 (April 30, 2022): 2099–101. http://dx.doi.org/10.22214/ijraset.2022.41392.

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Abstract: Purpose of making this project is to generate electrical energy from bad materials cow dung , dry paddy fields, dry leaf and bad stuff etc. and store that electrical energy in the battery through the circuit and use that electrical energy to operate the whole project. And the LED bulb is shown to be turned on and the use of filters to control pollution from energy production .So in this our Project we show successfully How to generate electricity by Waste Materials And Store electricity in Battery successfully. The main aim behind this project is to reduce the pollution, and recycle the wastage and reuse them and finally to produce the electricity from waste. Energy harvesting is the main focus of the researchers all over the world. It is because of deployment of million sensor nodes and bottleneck of battery. This method avails various methods like piezoelectric, electromagnetic, solar and thermoelectric. Keywords: LED (Light emitting diode), Electromagnetic, Thermoelectric, Voltage, Sag, Piezoelectric, Power Quality
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Halmare, Mr Abhay, Shreya Damodhar Zade, Simran Ramkrushna Parchake, and Ritesh Siddharth Borkar. "Power Genration Using By Peltier Module." International Journal for Research in Applied Science and Engineering Technology 10, no. 4 (April 30, 2022): 2099–101. http://dx.doi.org/10.22214/ijraset.2022.41392.

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Abstract: Purpose of making this project is to generate electrical energy from bad materials cow dung , dry paddy fields, dry leaf and bad stuff etc. and store that electrical energy in the battery through the circuit and use that electrical energy to operate the whole project. And the LED bulb is shown to be turned on and the use of filters to control pollution from energy production .So in this our Project we show successfully How to generate electricity by Waste Materials And Store electricity in Battery successfully. The main aim behind this project is to reduce the pollution, and recycle the wastage and reuse them and finally to produce the electricity from waste. Energy harvesting is the main focus of the researchers all over the world. It is because of deployment of million sensor nodes and bottleneck of battery. This method avails various methods like piezoelectric, electromagnetic, solar and thermoelectric. Keywords: LED (Light emitting diode), Electromagnetic, Thermoelectric, Voltage, Sag, Piezoelectric, Power Quality
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Rathod, Pranjul Singh, Gurpreet Singh, E. Abhilash, and Swati Tyagi. "Meal Donation Application Using Flutter Technology." International Journal for Research in Applied Science and Engineering Technology 10, no. 5 (May 31, 2022): 2927–29. http://dx.doi.org/10.22214/ijraset.2022.42996.

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Abstract: This mission is used to control the wastage of food in a purposeful way. people are throwing away lots of meals each day. So, we have to reduce that food wastage problem through online application. This app is basically a Food Donation App that includes Food Providers (Providers, Individuals and Restaurants etc.) and Recipients (NGOs, Individuals etc.). This app sets out the details of leftover food and pick up address and other relevant information that can be viewed by Recipients. Recipients with their consent can access the specified location to download the food package. Effective management and security of data is maintained while developing our product. User information is kept private because it maintains a separate account for each user. The potential for food redistribution for this project could be an effective social implementation initiative addressing food waste and food poverty. Keywords: Meal donation, Meal wastage, mobile application, flutter, firebase, mobile application
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Akila, A., and P. Shalini. "Food grain storage management system." International Journal of Engineering & Technology 7, no. 2.31 (May 29, 2018): 170. http://dx.doi.org/10.14419/ijet.v7i2.31.13433.

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Food grain Wastage cripples a country’s economy to a great extent. Food grain wastage is also associated with wastage of water, manpower during agricultural activities and electricity power used in food processing industries. It even causes deforestation. Adequate measures have to be taken to properly store the food grains so that they remain edible. The proposed storage management system uses the sensors to measure the levels of humidity, temperature and ammonia gas which will help us monitor quality of the food grains. The main idea is to identify the quality of the food grains using the sensors such as Temperature, Humidity and Ammonia Gas. The Quality of the food grain is measured using the factors like Humidity, Temperature and Ammonia gas sensors and sent through Wireless Communication to the server and the server makes the decision and alarms about the quality of the food grain to the maintenance people. Food grain Wastage cripples a country’s economy to a great extent. Food grain wastage is also associated with wastage of water, manpower during agricultural activities and electricity power used in food processing industries. It even causes deforestation. Adequate measures have to be taken to properly store the food grains so that they remain edible. The proposed storage management system uses the sensors to measure the levels of humidity, temperature and ammonia gas which will help us monitor quality of the food grains. The standard of identifying the food quality could be improved by using more sensors and can be implemented in the Food Storage Industry.
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Tao, Yanhui, and Weijia Yue. "Multi Objective Reactive Power Optimization of Distribution Network with Distributed Generation Power Uncertainty." Journal of Physics: Conference Series 2023, no. 1 (September 1, 2021): 012041. http://dx.doi.org/10.1088/1742-6596/2023/1/012041.

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Abstract Distributed generation will have a lot of adverse effects on the steadiness of the power system, resulting in the power wastage of the Distribution Network (DN) and the destruction of the reactive power balance of the power grid. It is essential to establish a dynamic reactive power optimization model to ameliorate the security, steadiness and economy of the DN. Based on this, this paper first analyses the connotation and typical characteristics of Distributed Generation (DG), then studies the connotation and typical characteristics of DG, and finally gives the multi-objective reactive power optimization strategy of DG DN.
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Saisudheer, A., and V. Muralipraveen. "Reducing Clock Power Wastage By Using Conditional Pulse Enhancement Scheme." i-manager's Journal on Circuits and Systems 1, no. 1 (February 15, 2013): 16–21. http://dx.doi.org/10.26634/jcir.1.1.2195.

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Dissertations / Theses on the topic "Power wastage"

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Nanjappa, Jagdish. "Web-based dynamic material modeling." Ohio University / OhioLINK, 2002. http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1174918633.

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Gibbons, Jonathan S. (Jonathan Scott) 1979, and Stephen V. 1982 Samouhos. "Mobile power plants : waste body heat recovery." Thesis, Massachusetts Institute of Technology, 2004. http://hdl.handle.net/1721.1/32814.

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Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2004.
Includes bibliographical references.
Novel methods to convert waste metabolic heat into useful and useable amounts of electricity were studied. Thermoelectric, magneto hydrodynamic, and piezo-electric energy conversions at the desired scope were evaluated to understand their role and utility in the efficient conversion of waste body heat. The piezo-electric generator holds the most promise for the efficient conversion of waste body heat into electricity. In the future, this same device could be easily extended into a combustion based power plant. An experimental apparatus investigating the use of magneto hydrodynamics was designed, built, and tested. A room temperature liquid inetal was propelled through a magneto hydrodynamic channel of 4 inches by 0.1875 inches at a rate of 10 mL/s. A 2 T induction field was applied within the channel. However, the results of the analysis did not find the magneto hydrodynamic device to be an effective electric generator at the scale tested.
by Jonathan S. Gibbons and Stephen V. Samouhos.
S.B.
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Wright, Lee. "Properties of concrete containing desulphurised waste." Thesis, Sheffield Hallam University, 2003. http://shura.shu.ac.uk/20570/.

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In the past, the emission of SO[2], NO[x] and CO[2] gasses, as a result of the combustion of fossil fuels within the power industry has been a major contributor to the pollution of the environment. Controls over the last few years have been implemented to combat the effects of air pollution on the environment. One such control is the reduction of sulphur dioxide (SO[2]) from power stations, which is achieved by fitting desulphurisation systems to new and existing installations. At present there are many types of desulphurisation processes available, which produce a variety of wastes that vary in quality and quantity. The majority of processes fit into three main categories, wet, semi dry and dry desulphurisation processes. Desulphurisation systems work by introducing alkaline sorbents, such as limestone, to the SO[2] gasses, either during or after combustion. The limestone reacts with the SO[2] gasses to form new insoluble materials such as gypsum (CaSO[4].2H[2]O). However, semi-dry and dry processes produce wastes that are usually a blend of fly ash and some form of calcium sulphate. The wide variation in chemical, physical and mineralogical properties of the wastes produced hinders their utilisation, because general experimental investigations are only relevant to specific types of wastes. In addition, the wastes can contain large quantities of sulphates, which are normally limited to a few percent in plain cements to regulate setting, and therefore, their initial potential appears limited. The current investigation aims to evaluate the performance of paste, mortar and concrete that contain large quantities of actual and simulated desulphurised wastes. Members of the Copernicus project (1999) provided various desulphurised wastes from Eastern European installations for investigation. Fly ash and gypsum from UK sources were blended in different proportions to simulate desulphurised wastes based on a range of SO[3] contents typically associated with actual desulphurised wastes produced throughout Eastern Europe. Several tests were conducted on paste, mortar and concrete containing actual and simulated desulphurised wastes to investigate basic physical, mechanical and durability properties. These include chemical shrinkage, porosity and pore size distribution, water absorption, length change, compressive strength, and sulphate resistance. The outcomes of investigation were positive in that cement based materials containing high levels of desulphurised wastes were produced, which exhibit physical, mechanical, and durability properties equal or superior to reference cements, and cements containing more common replacement materials such as fly ash and slag. Attempts were made to correlate specific properties such as chemical composition, porosity and pore size distribution, and chemical shrinkage with strength in order to determine the key factors influencing strength development of cement-based materials containing desulphurised wastes. The relationship between SO[3] content and compressive strength of pastes containing simulated desulphurised wastes (FA-G blends) was used to predict the theoretical strength of cement-based materials containing actual desulphurised wastes with reasonable accuracy. Thus reinforcing the decision to evaluate simulated desulphurised wastes due to the diverse nature of desulphurised wastes currently available across Eastern Europe.
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Blanquart, Fanny. "Perspectives for Power Generation fromIndustrial Waste Heat Recovery." Thesis, KTH, Skolan för industriell teknik och management (ITM), 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-215985.

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Abuzed, Sami A. Saad. "Photovoltaic power conversion : improvements to maximum power tracking algorithms and the repurposing of waste power supplies in battery charger applications." Thesis, University of Sheffield, 2015. http://etheses.whiterose.ac.uk/11581/.

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Engelke, Kylan Wynn. "Novel thermoelectric generator for stationary power waste heat recovery." Thesis, Montana State University, 2010. http://etd.lib.montana.edu/etd/2010/engelke/EngelkeK0510.pdf.

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Internal combustion engines produce much excess heat that is vented to the atmosphere through the exhaust fluid. Use of solid-state thermoelectric (TE) energy conversion technology is a promising technique to recapture some of the energy lost. The TE effect, discovered in 1821 by Thomas Seebeck, is essentially the solid-state conversion of a temperature gradient into an electric potential. The scope of this work was the design, testing and evaluation of a novel and robust TE generator that is amendable to use in a vast array of convective thermal processes. Seebeck testing of TE elements was combined with thermal/hydraulic and thermoelectric modeling to develop the design of a working prototype system. A proof-of-concept small-scale prototype (SSP) TE generator was built to evaluate concepts intended for the construction of a fully-functional field demonstration prototype (FDP). The SSP was used to evaluate electrical contact integrity, thermal characteristics, various TE materials and the feasibility of using compression-based TE contacts. The SSP featured 9 P/N TE pairs and has thus far produced a maximum open-circuit voltage of 380mV and a maximum electrical power of 1.47W. Knowledge gained from the SSP construction and testing was utilized in the design and fabrication of the FDP. A liquid-cooled Honda ES6500 6.0kW genset was procured to provide a test-bed for the FDP. The primary goal was to power the electric radiator fan with the heat energy contained in its exhaust, thus decreasing the genset's fuel consumption rate. The FDP contained 256 P/N pairs and thus far has produced an open-circuit voltage of 5.5VDC and a maximum power of 8.49W. Replacing the stock muffler reduced fuel consumption by 11.6% whereas removing the fan load reduced it an additional 1.64%. Through the recovery and conversion of wasted thermal energy, the genset's fuel consumption rate was successfully lowered, therefore validating the benefits of secondary TE power systems. The radiator fan of the Honda ES6500 consumes approximately 1% of the overall power output of the genset. Radiator fans in larger gensets can draw as much as 12-16% of their peak output. By recuperating waste heat, substantially higher fuel savings could be achieved.
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Emen, Seyfullah. "Power conditioning for MEMS-based waste vibrational energy harvester." Thesis, Monterey, California: Naval Postgraduate School, 2015. http://hdl.handle.net/10945/45848.

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Increasing energy needs push industry to build more sustainable and efficient systems. One of the methods to achieve energy efficiency is to feed wasted energy generated by a system itself during operation back to the system. Vibrational energy is one of the most common ambient energy forms in mechanical systems and can be converted into electrical energy with the implementation of piezoelectric energy harvesters. What makes this possible is the piezoelectric effect that some crystals and ceramics with no inversion symmetry show. Piezoelectric materials generate a potential difference when a force is applied and deform under an electric field. Power electronics is used to turn this potential into a usable energy. The amount of power generated by a single piezoelectric energy harvester could be very low, but Microelectromechanical Systems (MEMS) technology makes it possible to have thousands of devices in a very small area. Previously, a MEMS-based piezoelectric harvester for military applications was designed, developed, and tested at NPS. In this thesis, methods to convert the AC voltage output of this device into a DC voltage were investigated to find an efficient method. Because of their higher power needs, multiple devices need to be connected to achieve required power levels for military applications. Microfabrication processes allow for building large number of such devices at the same time. This thesis also studies the possible connections for an array of devices. Connection geometry that will produce the maximum power output for a number of devices is proposed.
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Weerasiri, Udayani Priyadarshana. "A waste heat recovery steam power generation system for ACE Power Embilipitiya (Pvt) Ltd, Sri Lanka." Thesis, KTH, Kraft- och värmeteknologi, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-157832.

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In this study, the heat recovery from exhaust gas at the ACE Power Embilipitiya (Pvt) Ltd (APE) in Sri Lanka was conceptually proposed and evaluated. APE has an installed capacity of 100 MW comprising 14 units of 7.5MW medium speed diesel engines fired with heavy fuel oil. There is only a minimum recovery of waste heat in the plant at the moment, only for fuel preheating, whereas waste heat recovery (WHR) boilers of 750kWth are equipped on eight engines. The larger portion of the waste heat is dumped into the environment without being used in any reasonable way. The objective of this work was to design a HRSG system for the remaining six engines to recover maximum possible heat from the exhaust gas and select a suitable steam turbine according to the heat demand capacity of the proposed HRSG, for generating additional power and thus converting the APE plant into a sort of a combined cycle. At the initial stage of the investigation, the amount of recoverable waste heat was estimated by evaluating the known parameters of the engines at fully loaded condition. The maximum theoretical waste heat recovery potential from the exhaust gas stream of one engine was calculated as 9807.87 MJ/h, equivalent to a heat rate of 2724.4 kW. The modelling and optimization of the proposed HRSG was done using the Engineering Equation Solver (EES) software, considering technical and practical limitations such as pinch point temperature difference, approach point temperature difference, terminal temperature difference and sulphur dew point in the stack. A commercially available steam turbine with a power output of 3.579 MW was selected as the optimum steam turbine for the desired conditions, utilising 12884.4 MJ/h of recovered waste energy amounting to 21.89% of the total available energy in the flue gas.
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Chhiba, Chetan. "Titanium alloy powder production from waste metal." Master's thesis, University of Cape Town, 2012. http://hdl.handle.net/11427/11989.

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Titanium and its alloys are among the most important advanced materials in use today due to attractive properties such as high strength to weight ratio and excellent corrosion resistance. However, the cost of titanium production is high, mostly due to the high cost of extraction. This has led to investigations of potentially lower cost methods such as near-net shape powder metallurgy techniques. One approach, which has the potential of producing the lowest cost powder available, involves converting titanium waste machine turnings to powder using the hydride-dehydride (HDH) process. The focus of this project is directed at this approach where a ball milling process is used to simultaneously hydrogenate and crush the titanium turnings into titanium hydride powder.
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Frykman, Carina. "The Power of Waste : A Study of Socio-Political Relations in Mexico City’s Waste Management System." Thesis, Uppsala University, Department of Cultural Anthropology and Ethnology, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-7063.

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It is estimated that up to 2 percent of the population in Third World countries survives on waste in one way or another. In Mexico City alone there exist 15,000 garbage scavengers called Pepenadores. The poverty and marginalization they experience is utterly linked to their work, and while they do much of the hard work their socio-economic situation seems stagnant. This paper explores the complexity of the waste management system in Mexico City which keeps them in this position, and how the current system is a manifestation of the existing symbiosis between the formal and informal sectors of the city.The main characters in the maintenance of this system are the leaders of waste management associations.Their struggle to maintain their powerful positions influences both the system’s relationship to the public sector and determines the socioeconomic situation of the Pepenadores.The paper also analyzes the effects of past efforts to change the system, and how policy changes always seem to work against the Pepenadores. Efforts to help the Pepenadores escape their vulnerable positions can be successful in the short-term, but the existing social structure in Mexico City make any permanent changes difficult to achieve.

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Books on the topic "Power wastage"

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Grimston, Malcolm. Nuclear power and radioactive waste. Harwell: United Kingdom Atomic Energy Authority, 1992.

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Alberta. Energy Resources Conservation Board. Southview Fibre Tech Ltd. wood waste power plant. Calgary, Alta: Energy Resources Conservation Board, 1988.

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France. Commissariat à l'énergie atomique, ed. Nuclear waste conditioning. Paris: Editions Le Moniteur, 2009.

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Greenberg, Michael. Nuclear Waste Management, Nuclear Power, and Energy Choices. London: Springer London, 2013. http://dx.doi.org/10.1007/978-1-4471-4231-7.

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Isaksson, G. Waste power and heat plant in Sävenäs, Göteborg. Göteborg, Sweden: GRAAB, Göteborgsregionens Avfalls AB, 1996.

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Golomb, A. LIF waste characterization for handling/disposal 1985. [Toronto]: Ontario Hydro, Research Division, 1986.

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Hare, Tony. Nuclear waste disposal. London: Gloucester Press, 1991.

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Galperin, Anne. Nuclear energy/nuclear waste. New York: Chelsea House Publishers, 1991.

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Galperin, Anne. Nuclear energy, nuclear waste. New York: Chelsea House Publishers, 1992.

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United States. Environmental Protection Agency. Office of Solid Waste and Emergency Response, ed. Waste reduction activities of selected WasteWise partners: Electric power industry. [Washington, D.C.]: U.S. Environmental Protection Agency, Office of Solid Waste and Emergency Response, 1997.

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Book chapters on the topic "Power wastage"

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Neelakandan, N., K. Sujan, Priyanka Kumari, Pooja Kumari, Alok Kumar Mishra, and L. Ramesh. "Power Wastage Audit and Recommendation of Conservation Measures at University Library." In Proceedings of 2nd International Conference on Intelligent Computing and Applications, 387–97. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-1645-5_33.

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Lacy, Peter, and Jakob Rutqvist. "The Power of Policy." In Waste to Wealth, 168–88. London: Palgrave Macmillan UK, 2015. http://dx.doi.org/10.1057/9781137530707_12.

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Spliethoff, Hartmut. "Power Generation from Biomass and Waste." In Power Systems, 361–467. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-02856-4_6.

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Weiss, Kenneth R. "Liquid and Solid Waste Treatment and Disposal." In Power Plant Engineering, 521–50. Boston, MA: Springer US, 1996. http://dx.doi.org/10.1007/978-1-4613-0427-2_16.

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Shah, Yatish T. "Waste Heat to Power Thermoelectricity." In Advanced Power Generation Systems, 415–92. Boca Raton: CRC Press, 2022. http://dx.doi.org/10.1201/9781003328087-8.

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Handa, Norihiko. "Nuclear Waste and Power Generation." In Energy Technology Roadmaps of Japan, 269–78. Tokyo: Springer Japan, 2016. http://dx.doi.org/10.1007/978-4-431-55951-1_16.

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Shinohara, Yoshikazu, and Osamu Umezawa. "Thermoelectric Power Generation from Waste Heat." In Handbook of Ecomaterials, 1–19. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-48281-1_14-1.

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Shinohara, Yoshikazu, and Osamu Umezawa. "Thermoelectric Power Generation from Waste Heat." In Handbook of Ecomaterials, 961–79. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-319-68255-6_14.

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Zohuri, Bahman, and Patrick McDaniel. "Safety, Waste Disposal, Containment, and Accidents." In Thermodynamics In Nuclear Power Plant Systems, 587–94. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-13419-2_21.

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Qing, Shan, Hua Wang, and Shi-bo Wang. "Mathematical Modeling of Medical Waste Incinerator." In Challenges of Power Engineering and Environment, 1221–25. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-76694-0_228.

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Conference papers on the topic "Power wastage"

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Srivastava, Animesh, Lekhraj Kumar, Rittwik Sood, Aniket Srivastava, and Shubham Sharma. "An Innovative Ghost Power Wastage Reduction System." In 2018 Fifth International Conference on Parallel, Distributed and Grid Computing (PDGC). IEEE, 2018. http://dx.doi.org/10.1109/pdgc.2018.8745974.

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Arya, Abhishek, Jyoti, Shailesh, Nity, Mustupha, Pratap, Shubham, et al. "An action plan for reducing power wastage in technical university." In 2016 International Conference on Control, Instrumentation, Communication and Computational Technologies (ICCICCT). IEEE, 2016. http://dx.doi.org/10.1109/iccicct.2016.7988055.

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Mahardika, Damar, Mochammad Facta, and Hermawan. "Harvesting electrical power from wastage wind energy of air handling unit." In THE 6TH INTERNATIONAL CONFERENCE ON ENERGY, ENVIRONMENT, EPIDEMIOLOGY AND INFORMATION SYSTEM (ICENIS) 2021: Topic of Energy, Environment, Epidemiology, and Information System. AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0127335.

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Arefin, Irfanul, Farhan Hasin Khan, Rafid Areman Ayon, Md Tasnimul Hasan, and AKM Abdul Malek Azad. "A Solar Powered Irrigation System to Minimize Wastage of Water: A Bangladesh Perspective." In 2022 International Conference on Energy and Power Engineering (ICEPE). IEEE, 2022. http://dx.doi.org/10.1109/icepe56629.2022.10044907.

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Higashi, Yuma, Tadashi Narabayashi, Yoichiro Shimazu, Masashi Tsuji, Syuichi Ohmori, Michitsugu Mori, and Kenichi Tezuka. "Study on Pipe Wastage Mechanism by Liquid Droplet Impingement Erosion." In 17th International Conference on Nuclear Engineering. ASMEDC, 2009. http://dx.doi.org/10.1115/icone17-76029.

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Evaluation of wastage speed for nuclear power plant maintains plant reliability and power up rating is important. There are two main cause of wastage flow accelerated corrosion (FAC) and mechanical erosion. This study is to develop evaluating the wastage speed by liquid droplet impingement erosion (LDIE). LDIE often occurs at downstream of corner of pipe or orifice. In this study, the liquid drop impinging tests were conducted with the test pieces mounted on a high speed rotating disk that cross thin water down jet and produced LDIE phenomena. The amount of the wastage by LDIE was evaluated by changing the rotational speed, the impingement frequency, and test piece materials. In addition, the generation mechanism of erosion was investigated by observing the surface of the test piece with a microscope. There is a method of evaluating by the mass difference before and after experiments. But this method is not correct because error becomes larger for mass measurement in the experiment, for the lost mass by LDIE is very little amount. Therefore, the method was developed to measure the volume in the erosion part. In this method, depth of LDIE was measured by the accuracy of ±0.01μm; therefore accurate measurement of the wastage can be improved.
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Audhya, Goutam K., Koushik Sinha, Pratham Majumder, and Satya Das. "Placement of access points with minimal wastage of transmission power in an indoor environment." In 2017 IEEE International Conference on Advanced Networks and Telecommunications Systems (ANTS). IEEE, 2017. http://dx.doi.org/10.1109/ants.2017.8384184.

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Sudhkar, J., E. Jagadeeswara Rao, and D. Sravani. "A Systematic Analysis of Low Power and Low Area Multipliers by Evading Wastage of energy." In 2021 IEEE 2nd International Conference on Applied Electromagnetics, Signal Processing, & Communication (AESPC). IEEE, 2021. http://dx.doi.org/10.1109/aespc52704.2021.9708537.

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Shi-ning, Ma, Hu Jun-zhi, Chen Xue-rong, Li Chang-qing, Liu Qian, and Jiang Hai. "Erosion Resistance of Arc Spray Composite Coatings at High Temperature on Boiler Tubes of Pulverized Coal Fired Power Station." In ITSC2003, edited by Basil R. Marple and Christian Moreau. ASM International, 2003. http://dx.doi.org/10.31399/asm.cp.itsc2003p0211.

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Abstract Several novel cored wires for producing Fe3Al intermetallic coating, Fe3Al/WC intermetallic coating, FeCrAl/WC intermetallic coating and FeCrNi/WC intermetallic coating by arc spraying were developed. The erosion wastage at high temperature of coatings was researched with different impingement angles and temperatures. The results indicated that impingement angle and temperature greatly affected FeCrAl/WC coating and Fe3Al/WC coating in erosion wastage. At the same time, the FeCrAl/WC coating had little effects on different temperature while impingement angle was 90° and different impingement angle while temperature was 650°C. As compared with water wall tube material (G20 steel) of power station boiler, the erosion resistance at high temperature of Fe3Al coating, Fe3Al/WC coating and FeCrAl/WC coating was higher. The erosion resistance rate of Fe3Al coating was 1.4~2.91 times of that of G20 steel when temperature was 650°C and particle was polygonal silica. At the same time, the erosion resistance rates of Fe3Al/WC coating and FeCrAl/WC coating was 1.4~3.06 and 1.94~2.89 times respectively. The results indicated that erosive condition of high temperature flue gas and fly ash mixture in boiler tube of pulverized coal fired power station could be solved with Fe3Al coating, Fe3Al/WC coating and FeCrAl/WC coating.
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Weng, William Khoo Chong, Yuma Higashi, Tadashi Narabayashi, Kenichiro Sugiyama, Hiroyuki Ohshima, and Akikazu Kurihara. "Study on Pipe Wastage Mechanism by Liquid Droplet Impingement Erosion II (Measurement of Erosion Rate)." In 18th International Conference on Nuclear Engineering. ASMEDC, 2010. http://dx.doi.org/10.1115/icone18-29887.

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Evaluation of wastage rate for nuclear power plant piping is important in maintaining plant reliability and safety. The two commonly well known causes of pipe wastage are liquid droplet impingement erosion (LDIE) and flow accelerated corrosion (FAC). This study is to evaluate the wastage rate of pipe wall and to measure the loss of mass caused by LDIE. A high speed rotating disk and water jet is used to perform LDIE phenomena. In this study, the liquid droplet impinging tests were conducted with the test piece mounted on the high speed rotating disk which crosses thin water jet. The amount of the wastage by LDIE was evaluated by changing the rotational speed, test time and test piece materials. After the experiment, the result of erosion was investigated by observing the surface of the test piece using a digital microscope, and photo was taken. A method of converting the photo into data is used. In this study, LDIE is considered as the main cause of test piece mass difference before and after the experiment. Therefore, a method is designed to evaluate the mass difference. In this method, the difference in volume of the material is calculated. The loss of mass is obtained by multiplying the difference in volume and density of the material. Then, 2-dimensional and 3-dimensional graphs of the test piece are drawn. The analytical code TRAC is used to analysis the liquid droplet velocity in Advance Boiling Water Reactor (ABWR) drain pipe.
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Atta, Soumen, and Anirban Mukhopadhyay. "Power-aware traffic grooming in WDM optical mesh networks for bandwidth wastage minimization: A genetic algorithm-based approach." In 2012 National Conference on Computing and Communication Systems (NCCCS). IEEE, 2012. http://dx.doi.org/10.1109/ncccs.2012.6412977.

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Reports on the topic "Power wastage"

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Avis, William. Drivers, Barriers and Opportunities of E-waste Management in Africa. Institute of Development Studies (IDS), December 2021. http://dx.doi.org/10.19088/k4d.2022.016.

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Population growth, increasing prosperity and changing consumer habits globally are increasing demand for consumer electronics. Further to this, rapid changes in technology, falling prices and consumer appetite for better products have exacerbated e-waste management challenges and seen millions of tons of electronic devices become obsolete. This rapid literature review collates evidence from academic, policy focussed and grey literature on e-waste management in Africa. This report provides an overview of constitutes e-waste, the environmental and health impacts of e-waste, of the barriers to effective e-waste management, the opportunities associated with effective e-waste management and of the limited literature available that estimate future volumes of e-waste. Africa generated a total of 2.9 million Mt of e-waste, or 2.5 kg per capita, the lowest regional rate in the world. Africa’s e-waste is the product of Local and imported Sources of Used Electronic and Electrical Equipment (UEEE). Challenges in e-waste management in Africa are exacerbated by a lack of awareness, environmental legislation and limited financial resources. Proper disposal of e-waste requires training and investment in recycling and management technology as improper processing can have severe environmental and health effects. In Africa, thirteen countries have been identified as having a national e-waste legislation/policy.. The main barriers to effective e-waste management include: Insufficient legislative frameworks and government agencies’ lack of capacity to enforce regulations, Infrastructure, Operating standards and transparency, illegal imports, Security, Data gaps, Trust, Informality and Costs. Aspirations associated with energy transition and net zero are laudable, products associated with these goals can become major contributors to the e-waste challenge. The necessary wind turbines, solar panels, electric car batteries, and other "green" technologies require vast amounts of resources. Further to this, at the end of their lifetime, they can pose environmental hazards. An example of e-waste associated with energy transitions can be gleaned from the solar power sector. Different types of solar power cells need to undergo different treatments (mechanical, thermal, chemical) depending on type to recover the valuable metals contained. Similar issues apply to waste associated with other energy transition technologies. Although e-waste contains toxic and hazardous metals such as barium and mercury among others, it also contains non-ferrous metals such as copper, aluminium and precious metals such as gold and copper, which if recycled could have a value exceeding 55 billion euros. There thus exists an opportunity to convert existing e-waste challenges into an economic opportunity.
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Kolb, J. O., and K. E. Wilkes. Power generation from waste incineration. Office of Scientific and Technical Information (OSTI), June 1988. http://dx.doi.org/10.2172/7011032.

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Elson, Amelia, Rick Tidball, and Anne Hampson. Waste Heat to Power Market Assessment. Office of Scientific and Technical Information (OSTI), March 2015. http://dx.doi.org/10.2172/1185773.

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Hagerty, K. J., and H. M. Knotek. 384 Power plant waste water sampling and analysis plan. Office of Scientific and Technical Information (OSTI), January 1995. http://dx.doi.org/10.2172/10116321.

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Webb, Stephen W., Charles W. Morrow, Susan Jeanne Altman, and Brian P. Dwyer. Water recovery using waste heat from coal fired power plants. Office of Scientific and Technical Information (OSTI), January 2011. http://dx.doi.org/10.2172/1008108.

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Brown, Marilyn Ann, Daniel D'Arcy, Melissa Voss Lapsa, Isha Sharma, and Yufei Li. Solid Waste from the Operation and Decommissioning of Power Plants. Office of Scientific and Technical Information (OSTI), January 2017. http://dx.doi.org/10.2172/1339360.

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Peet M. Soot, Dale R. Jesse, and Michael E. Smith. INTEGRATED POWER GENERATION SYSTEMS FOR COAL MINE WASTE METHANE UTILIZATION. Office of Scientific and Technical Information (OSTI), August 2005. http://dx.doi.org/10.2172/860870.

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Wilde, Martin H. Supplemental Power for the Town of Browning Waste Water Treatment. Office of Scientific and Technical Information (OSTI), April 2000. http://dx.doi.org/10.2172/764446.

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Nenoff, Tina M., Patrick Vane Brady, Koroush Sasan, Scott M. Paap, Brandon Walter Heimer, James L. Krumhansl, Kerry Howe, Zachary Stoll, and James Stomp. Waste Water for Power Generation via Energy Efficient Selective Silica Separations. Office of Scientific and Technical Information (OSTI), September 2017. http://dx.doi.org/10.2172/1395755.

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Morris, William, and Dennis Fitzpatrick. Supplemental Power for the town of Browning Waste-Water Treatment Facility. Office of Scientific and Technical Information (OSTI), December 2005. http://dx.doi.org/10.2172/875795.

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