Relevant bibliographies by topics / Residential system

Academic literature on the topic 'Residential system'

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Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Residential system"

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R.R, Lekshmi. "Frequency Based Demand Management System in Residential Context." Bonfring International Journal of Industrial Engineering and Management Science 4, no. 2 (May 9, 2014): 57–61. http://dx.doi.org/10.9756/bijiems.4815.

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ANDO, Shigeru. "Residential SOFC Cogeneration System." Journal of the Society of Mechanical Engineers 114, no. 1111 (2011): 456–57. http://dx.doi.org/10.1299/jsmemag.114.1111_456.

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Chauhan, R. K., B. S. Rajpurohit, R. E. Hebner, S. N. Singh, and F. M. Gonzalez-Longatt. "Voltage Standardization of DC Distribution System for Residential Buildings." Journal of Clean Energy Technologies 4, no. 3 (2015): 167–72. http://dx.doi.org/10.7763/jocet.2016.v4.273.

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Pradip, C., Dr M. S. P. Subathra, and R. P. Amritha. "Energy Management Strategy for PV- Grid Connected Residential Microgrid System." Journal of Advanced Research in Dynamical and Control Systems 11, no. 12-SPECIAL ISSUE (December 31, 2019): 546–54. http://dx.doi.org/10.5373/jardcs/v11sp12/20193250.

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OBA, Kazuhisa, Tetsuya YANAGIMOTO, and Toshiro KUTSUWA. "Evaluating System for Residential Environment." Transactions of the Institute of Systems, Control and Information Engineers 11, no. 2 (1998): 99–101. http://dx.doi.org/10.5687/iscie.11.99.

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Chiang, S. J., K. T. Chang, and C. Y. Yen. "Residential photovoltaic energy storage system." IEEE Transactions on Industrial Electronics 45, no. 3 (June 1998): 385–94. http://dx.doi.org/10.1109/41.678996.

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Zhang, Yu Hua. "Cold-Formed Thin-Walled Steel Framing Residential System." Applied Mechanics and Materials 620 (August 2014): 183–86. http://dx.doi.org/10.4028/www.scientific.net/amm.620.183.

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This paper briefly introduces the cold-formed thin-walled steel residential system, the mechanical behavior analysis on stress of cold-formed thin-walled steel structure residential vertical load and horizontal load, and through compared with cold-formed thin-walled steel structure residential and traditional residential structure, summarized the characteristics of cold-formed steel residential. It is significant that the cold-formed steel residential system will be promoted and applied.
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Ji, Ling Feng. "The Comparative Research on International Low Carbon Sustainable Residential Assessment Systems." Applied Mechanics and Materials 744-746 (March 2015): 2267–70. http://dx.doi.org/10.4028/www.scientific.net/amm.744-746.2267.

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The low carbon sustainable residential evaluation system devotes to saving energy, reducing emission, and optimizing the living environment, which plays a key role in coping with global warming and the sustainable development of human. It was introduced and analyzed comprehensively the most representative international residential appraisal systems—British Code for Sustainable House, American LEED, Japanese CASBEE, Chinese Evaluation Standard for Green Building and Chinese Ecological Residential Assessment Manual from the aspects of development process, evaluation content, evaluation software, evaluation system marketization, public education and so forth. It was also analyze the advantages and limitations of those residential evaluation systems, and put forward the problems of the present Chinese low carbon sustainable residential assessment system and the measures to improve the future low carbon sustainable residential evaluation systems.
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Zhao, Xueyuan, Weijun Gao, Yanxue Li, and Yoshiaki Ushifusa. "Load Shifting Assessment of Residential Heat Pump System in Japan." International Journal of Environmental Science & Sustainable Development 4, no. 3 (December 30, 2019): 101. http://dx.doi.org/10.21625/essd.v4i3.680.

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With the economic growth and increasing requirement of indoor thermal comfort, the load of building sector presents a greater variability.This paper aims at analyzing the energy consumption characteristics and influencing factors of the residential heat pump system. Firstly, we selected residential households as investigated objective in Kitakyushu, Japan, and compared the energy saving performances of heat supply systems between heat pump and natural gas boiler. The results were based on real measured residential load during winter period, and calculated the cost saving performance of residential heat pump system compared with traditional natural gas boiler. We also did a survey of residential occupation behavior for the 12 selected residential customers. The result indicated that there was low relationship between power consumption and occupation hours, and the number of family members had a significant impact on the power consumption. The results indicate that residential heat pump system presented promising energy saving and cost reduction potential.
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Ding, Fan, Yan Zhe Hu, and Jian Bin Zang. "Integrated Design of Solar Water Heater System and High-Rise Residential Buildings." Advanced Materials Research 860-863 (December 2013): 230–34. http://dx.doi.org/10.4028/www.scientific.net/amr.860-863.230.

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This paper analyzes the potential of the integration of solar water heater systems and high-rise residential buildings in a perspective of Ecological Civilization and raised issues specific to high-rise residential. Against the prospect the use of solar energy for high-rise residential buildings, the author points out the appropriate solution. The paper stresses that the process of the integration of high-rise residential and solar water heater systems, is a multi-phase technology system and building system integration process, is the inevitable trend to achieve ecological modern urban development.
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Dissertations / Theses on the topic "Residential system"

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Lang, Ming-Shuang. "Remote Residential Control System." Thesis, KTH, Mikroelektronik och Informationsteknik, IMIT, 2004. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-93044.

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A remote residential control system enables home users to remotely manage devices at their homes. These devices may include energy management, security surveillance, household appliances, consumer electronics, etc. This system involves technologies in home automation, home networking, and interfacing a home network with external networks. However, lacking a single standard poses a big challenge to the design of such a system. This thesis proposed three methods of turning an IP Set-Top Box into a remote residential control platform. Additionally, future trends are discussed. Various technologies in the fields mentioned above are also examined.
Ett system för fjärrstyrning av intelligenta hem (remote residential control system) är ett system som möjliggör för hemanvändare att på distans övervaka och styra utrustning i hemmet. Denna utrustning kan vara energiövervakning, säkerhetsutrustning, hushållsapparater, konsumentelektronik, etc. Det saknas dock en gemensam standard, vilket gör det till en stor utmaning att konstruera ett sådant system. I detta examensarbete föreslås tre sätt att göra en set-top box till en plattform för fjärrstyrning av intelligenta hem. Framtida trender diskuteras också. Olika tekniker inom nämnda områden undersöks[.]
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Nistor, Silviu. "Residential demand response in the power system." Thesis, Cardiff University, 2015. http://orca.cf.ac.uk/74320/.

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Demand response (DR) is able to contribute to the secure and efficient operation of power systems. The implications of adopting the residential DR through smart appliances (SAs) were investigated from the perspective of three actors: customer, distribution network operator, and transmission system operator. The types of SAs considered in the investigation are: washing machines, dish washers and tumble dryers. A mathematical model was developed to describe the operation of SAs including load management features: start delay and cycle interruption. The optimal scheduling of SAs considering user behaviour and multiple-rates electricity tariffs was investigated using the optimisation software CPLEX. Further, the financial benefits for SA users subscribing to multiple-rates electricity tariffs were investigated. The savings are mainly a result of the appliances’ load shifting feature and are sensitive to user settings. The savings averaged at 7% of the household annual electricity bill. For households in the United Kingdom, the SAs had a payback period of less than three years and a net present value of up to £206. Furthermore, the operation of distribution networks with different uptake rates of SAs was investigated. A simulation containing a load modelling method and a network model determines, through time series power flow analysis, the network branch loading and voltage profile. The thermal ratings and voltage limits were exceeded on the LV network due to deterioration in the temporal diversity of the appliance utilisation. A regional controller for SAs was developed which effectively limited the network peak demand and voltage drop. A framework was introduced which enabled transmission system operators to access demand response from SAs in a timeframe suitable for operating reserve. A multiple time-step simulation was developed that assessed the load reduction from a number of households as a response to a reserve instruction. The instruction was modelled as a price increase with a short notification period. It was estimated that up to half of the current operating reserve requirements of Great Britain’s power system can be obtained with 20% uptake of SAs.
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Trueblood, Christopher P. Halpin S. Mark. "Modeling a fuel cell system fo residential dwellings." Auburn, Ala., 2006. http://repo.lib.auburn.edu/2006%20Spring/master's/TRUEBLOOD_CHRISTOPHER_30.pdf.

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Unruh, Cassie, Austin Johnson, and Lisa Nordman. "Residential Telemetry Applications for HVAC Control." International Foundation for Telemetering, 2011. http://hdl.handle.net/10150/595643.

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ITC/USA 2011 Conference Proceedings / The Forty-Seventh Annual International Telemetering Conference and Technical Exhibition / October 24-27, 2011 / Bally's Las Vegas, Las Vegas, Nevada
Much of the energy consumed in developed countries is for residential heating and cooling. Substantial savings are possible if one can monitor the indoor environment at many locations, and then actively control the heating, ventilation and air conditioning (HVAC) system. This project uses a wireless sensor array and dedicated microcontroller system to control a residential HVAC system. A low data rate, ad-hoc network of sensors is deployed throughout a residence, with the data sent to a central controller. A graphical user interface allows the resident to monitor the system status, and to set parameters.
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Paris, Deidre Eileen. "A residential satisfaction decision support system for affordable housing." Diss., Georgia Institute of Technology, 2002. http://hdl.handle.net/1853/23395.

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Fletcher, Serena. "Residential remote area power supply system monitoring and analysis." Thesis, Fletcher, Serena (1999) Residential remote area power supply system monitoring and analysis. Masters by Coursework thesis, Murdoch University, 1999. https://researchrepository.murdoch.edu.au/id/eprint/40932/.

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The objective of this thesis was to design, develop, test and install a monitoring system for a residential renewable energy remote area power supply (RAPS) system. In doing so, the aim was to address the lack of availability of reliable, accurate and continuously monitored data for residential remote area power supply (RAPS) systems. A comprehensive database of monitored data for renewable energy RAPS systems, such as the one monitored for this thesis, will provide a basis for improving the understanding of the operation of these systems. This information may prove useful to system designers, equipment suppliers, system owners, potential system buyers, researchers, the Government and the public in general. The project will also provide feedback to the Office of Energy on the performance of a selected renewable energy RAPS system under the Wes tern Australian Government's Renewable Energy RAPS Rebate Scheme, in particular, the contribution of the renewable energy component of the system. The data collected in monitoring projects, such as this one, can be used to validate the accuracy of computer simulation programs. The lack of reliable monitored data has inhibited the validation of such simulation programs under field conditions. The aim in this thesis was to use the data collected to validate the accuracy of the RAPSIM simulation program. The residential hybrid PV RAPS system at Mundabullangana Station, Port Hedland, was selected for monitoring for a period of two years. This thesis details the design, development, testing and installation of a monitoring system for the RAPS system. At the time of submission of this thesis, approximately six weeks of high quality data was obtained. The monitored data allowed the RAPS system operational performance to be analysed in detail, and to be verified against the estimated performance provided by the designers of the system. The preliminary monitored results showed a close agreement with the estimated values. The data was also used to validate the RAPSIM simulation program. The results indicated a good correlation between the simulated and monitored daily profiles, and a reasonable to good comparison between the average daily system parameters.
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POSEDLY, PAUL EDWARD III. "Modeling and Analysis of Photovoltaic Generation and Storage Systems for Residential Use." University of Cincinnati / OhioLINK, 2008. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1213715332.

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Kalantiz, Nikolaos. "Thermo-economic modelling of micro-cogeneration systems : system design for sustainable power decentralization by multi-physics system modelling and micro-cogeneration systems performance analysis for the UK domestic housing sector." Thesis, University of Bradford, 2015. http://hdl.handle.net/10454/14406.

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Micro-cogeneration is one of the technologies promoted as a response to the global call for the reduction of carbon emissions. Due to its recent application in the residential sector, the implications of its usage have not yet been fully explored, while at the same time, the available simulation tools are not designed for conducting research that focuses on the study of this technology. This thesis develops a virtual prototyping environment, using a dynamic multi-physics simulation tool. The model based procedure in its current form focuses on ICE based micro-CHP systems. In the process of developing the models, new approaches on general system, engine, heat exchanger, and dwelling thermal modelling are being introduced to cater for the special nature of the subject. The developed software is a unique modular simulation tool platform linking a number of independent energy generation systems, and presents a new approach in the study and design of the multi node distributed energy system (DES) with the option of further development into a real-time residential energy management system capable of reducing fuel consumption and CO2 emissions in the domestic sector. In the final chapters, the developed software is used to simulate various internal combustion engine based micro-CHP configurations in order to conclude on the system design characteristics, as well as the conditions, necessary to achieve a high technical, economic and environmental performance in the UK residential sector with the purpose of making micro- CHP a viable alternative to the conventional means of heat & power supply.
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Kalantzis, Nikolaos. "Thermo-Economic Modelling of Micro-Cogeneration Systems System Design for Sustainable Power Decentralization by Multi-Physics System Modelling and Micro-Cogeneration Systems Performance Analysis for the UK Domestic Housing Sector." Thesis, University of Bradford, 2015. http://hdl.handle.net/10454/14406.

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Micro-cogeneration is one of the technologies promoted as a response to the global call for the reduction of carbon emissions. Due to its recent application in the residential sector, the implications of its usage have not yet been fully explored, while at the same time, the available simulation tools are not designed for conducting research that focuses on the study of this technology. This thesis develops a virtual prototyping environment, using a dynamic multi-physics simulation tool. The model based procedure in its current form focuses on ICE based micro-CHP systems. In the process of developing the models, new approaches on general system, engine, heat exchanger, and dwelling thermal modelling are being introduced to cater for the special nature of the subject. The developed software is a unique modular simulation tool platform linking a number of independent energy generation systems, and presents a new approach in the study and design of the multi node distributed energy system (DES) with the option of further development into a real-time residential energy management system capable of reducing fuel consumption and CO2 emissions in the domestic sector. In the final chapters, the developed software is used to simulate various internal combustion engine based micro-CHP configurations in order to conclude on the system design characteristics, as well as the conditions, necessary to achieve a high technical, economic and environmental performance in the UK residential sector with the purpose of making micro- CHP a viable alternative to the conventional means of heat & power supply.
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Kleven, Magnus Hustad. "Analysis of Grey-water Heat Recovery System in Residential Buildings." Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for energi- og prosessteknikk, 2012. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-19399.

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Annual operating costs for buildings are a substantial cost in a lifetime. It is therefore of interest to try and reduce these costs. A large fraction of this cost today as the buildings become more and more energy efficient is the cost of hot tap water. The study in this report looks into the potential for energy savings from grey wastewater. It is here looked at the amount of energy which can be recovered from hot water leaving the building and reused for pre heating of hot tap water and heating of building. The unit which would recover this energy is referred to as the grey-water heat recovery unit in this report. A residential building with three floors where each floor has one washing machine, one shower and one dishwasher has been as the case building for the report. The total living area of the building is 450 m2. In the case building used in this report as much as 17.1 % of the total used energy goes to heating of hot tap water. By installing a heat recovery system which can recover some of the energy stored in the used hot water which leaves the building, this this could be reduced to 10.9 % of the total used energy according to simulations done in SIMIEN. There are also possibilities of using this energy for heating of the building as well as pre heating of hot tap water. There are a few different solutions for implementing a grey-water heat recovery unit which could give different energy recovery between 2 716 kWh/year to 3 759 kWh/year. The best solution would be to connect the grey-water heat recovery unit to pre-heating of hot tap water, heating of the building as well as installing an accumulation tank to store recovered energy in. The most simple solution which would give the lowest amount of recovered energy would be to just connect the grey-water heat recovery unit to pre heating of hot tap water. In this report two different simulation programs have been used, EnergyPlus and SIMIEN, to find what impact the energy reduction would have on the building and to see if the simulations would correspond to the theoretical estimates done in this report. The theoretical estimates based on equations for heat recovery and measured data for energy use in the case building gave a little bit better results than the simulated results for the same case building. Although there is a difference both gave a positive indication that a heat recovery unit would not only reduce the energy consumption but also reduce the annual operating cost of a building. The investment cost for a heat recovery system could be a bit large for small buildings compared to the annual savings but for larger buildings the investment cost could be substantially higher. Regarding the energy as much as 87.7 % of the energy stored in the grey-water could be recovered for a system with an accumulation tank and a connection to the buildings heating system. For a system without the accumulation tank and district heating as the energy source it would have a theoretical efficiency of 76.7 % and a simulated efficiency of 63.3 % when simulated in EnergyPlus.
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Books on the topic "Residential system"

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Sung, Che-ming. Expert system for residential property investment. [s.l: The Author], 1992.

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Shaw, Julie. Residential Children's Homes and the Youth Justice System. London: Palgrave Macmillan UK, 2014. http://dx.doi.org/10.1057/9781137319616.

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Innovative Housing Grants Program (Alta.). The smart subdivision: Residential applications of IVDM technology. Edmonton: Innovative Housing Grants Program, Alberta Municipal Affairs, 1987.

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Stroul, Beth A. Crisis residential services in a community support system: Report on the NIMH crisis residential services project. Rockville, Md: National Institute of Mental Health, Community Support Program, 1987.

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Bryant, Brian R. adaptive behavior scale, residential and community: Software scoring and report system. 2nd ed. Austin, Tex: Pro-ed, 1993.

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Beckerman, Richard. Super Good Cents ventilation system cost report: The residential construction demonstration project. [Olympia, Wash.?]: Washington State Energy Office, 1989.

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Grant, Caroline A. Development of an expert system for valuation of residential properties for mortgage purposes. [s.l: The author], 1991.

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Team, Ontario Young Offenders Residential System Review. Review of the young offender residential service system: A report to the Minister. Toronto, Ont: Ministry of Community and Social Services, 1989.

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Milloy, John Sheridan. A national crime: The Canadian government and the residential school system, 1879 to 1986. Winnipeg: University of Manitoba Press, 1999.

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Council, Indian Green Building. IGBC Green Homes® rating system: For individual & multi-dwelling residential units : detailed reference guide. 2nd ed. Hyderabad: Indian Green Building Council, 2013.

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Book chapters on the topic "Residential system"

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Haller, Michel Y., Daniel Carbonell, Erik Bertram, Andreas Heinz, Chris Bales, and Fabian Ochs. "System simulations." In Solar and Heat Pump Systems for Residential Buildings, 159–208. Berlin, Germany: Wilhelm Ernst & Sohn, 2015. http://dx.doi.org/10.1002/9783433604830.ch07.

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Ren, Hongbo, Weijun Gao, and Yingjun Ruan. "Optimal Sizing for Residential CHP System." In Challenges of Power Engineering and Environment, 73–79. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-76694-0_13.

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Jia, Lianqin. "Security System for Intelligent Residential Quarters." In Lecture Notes in Electrical Engineering, 759–64. London: Springer London, 2013. http://dx.doi.org/10.1007/978-1-4471-4856-2_92.

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Gustafson, Robert J., and and Mark T. Morgan. "PLANNING THE RESIDENTIAL ELECTRICAL DISTRIBUTION SYSTEM." In Fundamentals of Electricity for Agriculture, 3rd Edition, 157–78. St. Joseph, MI: American Society of Agricultural and Biological Engineers, 2004. http://dx.doi.org/10.13031/2013.17766.

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Ruschenburg, Jörn, and Sebastian Herkel. "System description, categorization, and comparison." In Solar and Heat Pump Systems for Residential Buildings, 5–22. Berlin, Germany: Wilhelm Ernst & Sohn, 2015. http://dx.doi.org/10.1002/9783433604830.ch02.

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Shaw, Julie. "Developments and Experiences in Residential Care." In Residential Children's Homes and the Youth Justice System, 11–27. London: Palgrave Macmillan UK, 2014. http://dx.doi.org/10.1057/9781137319616_2.

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Shaw, Julie. "Solidarity, Conflict and the Residential Regime." In Residential Children's Homes and the Youth Justice System, 89–109. London: Palgrave Macmillan UK, 2014. http://dx.doi.org/10.1057/9781137319616_6.

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Mutluel, Fatih, and Egemen Sulukan. "Reference Energy System Development for Turkish Residential Sector." In Springer Proceedings in Energy, 179–86. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-45659-1_17.

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Herbst, Andrea, Anna-Lena Klingler, Stephanie Heitel, Pia Manz, Tobias Fleiter, Matthias Rehfeldt, Francesca Fermi, Davide Fiorello, Angelo Martino, and Ulrich Reiter. "Future Energy Demand Developments and Demand Side Flexibility in a Decarbonized Centralized Energy System." In The Future European Energy System, 91–113. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-60914-6_6.

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AbstractEuropean final energy consumption mainly stems from five sectors: transport, households, industry, residential, and agriculture using fossil fuels as dominant energy carriers. In order to achieve the climate targets, emissions in the demand sectors must be drastically reduced. Due to different characteristics and challenges each sector needs its own strategy how to achieve such decarbonization until 2050. In the following chapter, the impacts of an ambitious mitigation scenario on future energy demand and CO2 emissions for transport, industry, residential, and tertiary are analyzed discussing sector specific decarbonization strategies and mitigation options. Implications of such strategies for demand-side flexibility and its future need are analyzed.
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Botón-Fernández, Vicente, Máximo Pérez Romero, Adolfo Lozano-Tello, and Enrique Romero-Cadaval. "Intelligent Energy Management System for Residential and Community Applications." In IFIP Advances in Information and Communication Technology, 307–14. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-37291-9_33.

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Conference papers on the topic "Residential system"

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Zhang, Jianbo, Yin Qun, and Gu Ji. "Residential Lighting System." In 2018 IEEE 3rd Advanced Information Technology, Electronic and Automation Control Conference (IAEAC). IEEE, 2018. http://dx.doi.org/10.1109/iaeac.2018.8577720.

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Mateus Mendonça Bezerra, Alexandre, Jonhattan Ferreira Rangel, and Kleiber Bessa. "RESIDENTIAL AUTOMATED IRRIGATION SYSTEM." In 25th International Congress of Mechanical Engineering. ABCM, 2019. http://dx.doi.org/10.26678/abcm.cobem2019.cob2019-1341.

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Meetoo, Chris, Sanjay Bahadoorsingh, Neil Ramsamooj, and Chandrabhan Sharma. "Wireless residential power monitoring system." In 2017 IEEE Manchester PowerTech. IEEE, 2017. http://dx.doi.org/10.1109/ptc.2017.7981122.

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White, R. D. "DC electrification supply system design." In 2nd IEE Residential Course on Railway Electrification Infrastructure Systems. IEE, 2005. http://dx.doi.org/10.1049/ic:20050620.

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Al-Hafidh, Majid S. M., and Mustafa H. Ibrahem. "Hybrid power system for residential load." In 2013 International Conference on Electrical, Communication, Computer, Power and Control Engineering (ICECCPCE). IEEE, 2013. http://dx.doi.org/10.1109/iceccpce.2013.6998737.

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Vasluianu, Mihaela, Oana Carmen Niculescu Faida, Ramona-Oana Flangea, Neculoiu Giorgian, and Mariana Marinescu. "Microgrid System for a Residential Ensemble." In 2019 22nd International Conference on Control Systems and Computer Science (CSCS). IEEE, 2019. http://dx.doi.org/10.1109/cscs.2019.00067.

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Wang, Xiaopeng. "Health Management System of Residential Quarters." In 3rd International Conference on Management Science, Education Technology, Arts, Social Science and Economics. Paris, France: Atlantis Press, 2015. http://dx.doi.org/10.2991/msetasse-15.2015.172.

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Robbins, Curtis M. "Off-Grid Residential Hydrogen Energy System." In ASME 2007 Energy Sustainability Conference. ASMEDC, 2007. http://dx.doi.org/10.1115/es2007-36197.

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Many energy consuming applications are beyond the realm of a distributed power network. These applications require an economical means for constant and sufficient power. It is the goal of the off-grid Hydrogen project to supply this current and future demand. The project is a mobile unit consisting of inverters, batteries, an electrolyzer, hydrogen storage, propane storage, an internal combustion engine generator, and computer unit. A renewable energy source and a water source from the site are connected to the trailer. A residential load will be met using solar renewable energy in the form of solar panels and wind turbines. The mobile device can be brought to off-grid locations to supply the electricity requirements of a current residential lifestyle.
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Bang, Hyo Joon, Stephanie Stockar, Matteo Muratori, and Giorgio Rizzoni. "Modeling and Analysis of a CNG Residential Refueling System." In ASME 2014 Dynamic Systems and Control Conference. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/dscc2014-6160.

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Natural gas has recently been proposed as an alternative fuel for transportation in the United States. Refueling infrastructure is the major technological barrier to the market penetration of passenger compressed natural gas (CNG) vehicles. Currently, there is about one natural gas refueling station every 150 gasoline pumps. Nevertheless, natural gas is widely available in American houses, and thus distributed residential refueling is seen as a viable solution. Generally, residential CNG refueling systems use compressors driven by electric motors. With a potential increase in the number of residential natural gas refueling systems over the next few years, the additional load that this system will introduce on the electric power infrastructure can be significant. In this paper, a system dynamic model of a residential refueling system has been developed and validated against data available in the literature. Ultimately, the model will allow for exploring the impact of residential refueling of CNG vehicles on the electric power infrastructure.
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Xue, Hong, Nathan Locke, and Scott Radel. "Analysis of Distributed Energy System for a Typical SoCal Residential Home." In ASME 2017 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/imece2017-71149.

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This study presents a simulation and cost analysis of a distributed energy system for a typical Southern California residential home. A method of simulating a residentially distributed energy system comprised of a fuel cell, a battery, and photovoltaics has been developed. The simulation was performed by developing solar insolation profiles and diurnal demand profiles from energy statistics, and then using them to determine the performance of the system components and estimate the annual operational costs. The results of this simulation were then used to assess the cost effectiveness of the energy system as household size and system component capacities were varied. The simulation results show that the increasing of the photovoltaic capacity has a significant impact on reducing the payback time as higher capacities reduce operation costs by allowing for more electricity to be sold back to the grid. The results payback period decreases as the number of members in a household increases. However, it is found that variation in the capacity of the battery does not have a significant impact on payback time and tends to reduce system performance or adds unnecessary cost if capacity increases or decreases from an optimal value. The present work plays an important role not only for policy makers and utility companies to promote the renewable energy usage, but also for residents to understand the benefits of distributed energy system in residential applications.
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Reports on the topic "Residential system"

1

Liu, Xiaobing. Assessment of Residential GSHP System. Office of Scientific and Technical Information (OSTI), September 2010. http://dx.doi.org/10.2172/988224.

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Walker, I. S., J. A. Siegel, and G. Degenetais. Simulation of residential HVAC system performance. Office of Scientific and Technical Information (OSTI), May 2001. http://dx.doi.org/10.2172/785278.

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Gerstmann, Joseph. MICRO-CHP System for Residential Applications. Office of Scientific and Technical Information (OSTI), January 2009. http://dx.doi.org/10.2172/1025198.

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Arena, L., and O. Faakye. Optimizing Hydronic System Performance in Residential Applications. Office of Scientific and Technical Information (OSTI), October 2013. http://dx.doi.org/10.2172/1096690.

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Balsavich, J., F. E. Becker, and L. A. Smolensky. CWS-Fired Residential Warm-Air Heating System. Office of Scientific and Technical Information (OSTI), March 1988. http://dx.doi.org/10.2172/6359982.

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Balsavich, J., F. E. Becker, and L. A. Smolensky. CWS-Fired Residential Warm-Air Heating System. Office of Scientific and Technical Information (OSTI), July 1989. http://dx.doi.org/10.2172/6142266.

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Balsavich, J., F. Becker, and L. Smolensky. CWS-fired residential warm-air heating system. Office of Scientific and Technical Information (OSTI), March 1990. http://dx.doi.org/10.2172/6931995.

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Litzke, Wai-Lin. Maintenance and storage of fuel oil for residential heating systems: A guide for residential heating system maintenance personnel. Office of Scientific and Technical Information (OSTI), December 1992. http://dx.doi.org/10.2172/6646860.

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Balsavich, J. C. Jr. Integrated emissions control system for residential CWS furnace. Office of Scientific and Technical Information (OSTI), November 1991. http://dx.doi.org/10.2172/5804085.

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Zhou, Ting, Shu Lan, Zhihua Chen, Bingzhen Zhao, and Pengfei Zhang. THE PARAMETER ANALYSIS OF ASSEMBLED STEEL STRUCTURE RESIDENTIAL SYSTEM. The Hong Kong Institute of Steel Construction, December 2018. http://dx.doi.org/10.18057/icass2018.p.059.

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