Готові списки джерел за темами / Public buildings Energy conservation

Добірка наукової літератури з теми "Public buildings Energy conservation"

Автор: Grafiati
Опубліковано: 10 грудня 2022
Оновлено: 29 січня 2023

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Статті в журналах з теми "Public buildings Energy conservation"

1

Liu, Bing, and Zhi Liang Zhang. "Energy Analysis and Energy Saving Applications of Hotel Typed Large Public Building." Advanced Materials Research 356-360 (October 2011): 2459–64. http://dx.doi.org/10.4028/www.scientific.net/amr.356-360.2459.

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Анотація:
Building engineering in China is divided into civil building and industry building. Civil building engineering includes residential building and public building. There are many types of public building: shopping malls, office buildings, hotels and so on. In this thesis, architecture test and investigation are processed for the large public building such as hotel type, which focus on its characteristic features of energy consumption. Then energy conservation schemes are propounded and applied in real buildings.
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2

Mo, Zheng Bo, Song Tao Hu, and Li Yan Gao. "The Efficiency Measures of Building Energy Conservation." Applied Mechanics and Materials 99-100 (September 2011): 680–83. http://dx.doi.org/10.4028/www.scientific.net/amm.99-100.680.

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Анотація:
Briefly outlines current situation of building energy consumption in China. On this basis, lists the efficiency measures of building energy conservation: including energy optimization in building design process, new technologies in building envelope, energy saving of heating system, heat pumps, large public buildings energy conservation, efficient lights and energy saving electrical appliances.
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3

Ying, Haining, Huiyu Lu, Jie Ren, Kang Li, and Jing Chen. "Research on energy conservation of port public buildings." IOP Conference Series: Earth and Environmental Science 545 (July 28, 2020): 012037. http://dx.doi.org/10.1088/1755-1315/545/1/012037.

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4

Liu, Yang, Shiqing Zou, Hongyu Chen, Xianguo Wu, and Wenman Chen. "Simulation Analysis and Scheme Optimization of Energy Consumption in Public Buildings." Advances in Civil Engineering 2019 (July 25, 2019): 1–13. http://dx.doi.org/10.1155/2019/6326138.

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Анотація:
Under the requirement of energy savings and emission reduction in China, building energy consumption, which occupies a rising proportion of the total energy consumption in society, has become the focus of energy conservation research. Public buildings with a high-energy consumption level have become the most important part of energy conservation research. It is of great practical significance and social value to study energy conservation in large public buildings. In this paper, a large office building is taken as an example. First, a simulation model is constructed by using the energy consumption simulation analysis method, and the reliability of the model is verified by a comparison with the actual energy consumption. Second, based on the model, the thermal design parameters of six building envelope structures, including the external wall heat transfer coefficient, are analyzed in the order of energy-saving sensitivity. Based on the results of the sensitivity analysis, suggestions for each factor are presented. Finally, considering the mutual influence of each parameter on the building energy consumption, the orthogonal design method is used to arrange the test, and the optimal scheme combination of the energy-saving effect is analyzed, which can provide decision support for the energy saving of public building envelopes.
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5

Cai, Wei, Ke Jian Cai, and Zhao Hui Wu. "Dominant Factors of Central Air Conditioning System Zoning and Thermal Comfort for Large-Scale Public Buildings in China." Advanced Materials Research 171-172 (December 2010): 159–62. http://dx.doi.org/10.4028/www.scientific.net/amr.171-172.159.

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Анотація:
Large-scale public buildings have high energy density, which take big part of the gross energy consumption in buildings in China. It is still in attempting stage about the strategy of energy conservation in air conditioning systems. The objective of this study is to investigate that how to appropriately divide central air conditioning system zoning by using simulation software to calculate the basis dynamic temperature and load in typical large-scale public buildings. Effects of weather conditions, building envelope conditions and building structure on large-scale public building energy consumption were analyzed in this simulation. The results show that the building load is the fundamental factor involved in air conditioning system zoning. Surplus heat recovery in inner zone is also recommended to maintain inner zone comfort and energy conservation. This work provides the theoretical and technological basis for study on central air conditioning system zoning and thermal comfort for large-scale public building.
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6

Li, Heng-jie, Zhen Qiao, Wei Chen, Xian-qiang Zeng, and Long Wu. "Research On Public Building Energy Consumption Prediction Method Based On NAR Neural Network Prediction Technology." E3S Web of Conferences 118 (2019): 04010. http://dx.doi.org/10.1051/e3sconf/201911804010.

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Анотація:
In order to solve the problem of high energy consumption of public buildings and optimize and improve energy conservation of public buildings, we built a building energy consumption prediction model based on NAR neural network prediction technology improved by BP neural network algorithm, and the energy consumption value is predicted. The large public buildings as the research object, the key factors to determine the effect of building energy consumption and collect the corresponding data processing, as the input parameters of neural network prediction public buildings energy consumption value, according to the actual situation will eventually NAR prediction of neural network and BP network prediction method and the comparative analysis the measured data. The results show that NAR neural network can predict the energy consumption of public buildings more accurately than BP neural network under different building parameters.
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7

Hasim, Mohamad Sufian, Wan Farissa Haslin Wan Azam, Ahmad Ezanee Hashim, and Nor Rima Muhamad Ariff. "Energy Conservation Practices in Universities Buildings." Environment-Behaviour Proceedings Journal 4, no. 12 (December 31, 2019): 123. http://dx.doi.org/10.21834/e-bpj.v4i12.1899.

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Анотація:
Energy conservation is one of the significant initiatives towards sustainable campus and should be implemented in university facilities management practices. This research benchmarked for the most effective initiatives and strategies for energy conservation practices in universities. Six (6) semi-structured interview was conducted in three (3) universities organization. The most five (5) effective energy conservation practiced were energy awareness programs in place, adopting energy-efficient appliances and equipment, managing time schedules, implementing the prepaid metering system, and energy management planning. Therefore, the commitments and participation are needed from all universities, both private and public organizations, toward achieving a sustainable future.Keywords: Energy Conservation; Energy Efficiency; Sustainable Facilities Management; Sustainable Universities.eISSN: 2398-4287 © 2019. The Authors. Published for AMER ABRA cE-Bs by e-International Publishing House, Ltd., UK. This is an open-access article under the CC BYNC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). Peer–review under responsibility of AMER (Association of Malaysian Environment-Behaviour Researchers), ABRA (Association of Behavioural Researchers on Asians) and cE-Bs (Centre for Environment-Behaviour Studies), Faculty of Architecture, Planning & Surveying, Universiti Teknologi MARA, Malaysia.DOI: https://doi.org/10.21834/e-bpj.v4i12.1899
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8

Zhang, Chunzhi, Nianxia Yuan, and Qianjun Mao. "Energy audit and conservation potential analysis of a large comprehensive commercial building." Thermal Science 22, Suppl. 2 (2018): 567–76. http://dx.doi.org/10.2298/tsci170524041z.

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Анотація:
With the rapid development of large-scale public buildings, energy consumption has increased, of which the energy consumption of comprehensive commercial buildings can reach 10~20 times the common building energy consumption, and has great energy saving potential. In this paper, a large comprehensive commercial building in Chengdu is taken as an example to analyze the energy consumption through the actual energy consumption data, viewed from the energy-saving and emission-reduction and static investment payback period point. The results show that the energy saving rate of the building can be achieved by 32.64%, the emission reduction is 6196.52 t CO2 per year, and the investment recovery period is only about 0.90 years, which provides a reference for similar buildings.
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9

Zhao, Xing, and Zengfeng Yan. "Analysis of Energy Conservation Big Data of Embedded Large Public Buildings and Construction of the Information Model by 5G." Wireless Communications and Mobile Computing 2022 (May 9, 2022): 1–12. http://dx.doi.org/10.1155/2022/3023323.

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Анотація:
The problem of energy shortage has become one of the most serious problems in the process of economic development. The research is aimed at studying the energy conservation data and information model of large public buildings. Based on the theories of 5G technology, embedded system, and energy conservation of large public buildings, firstly, 5G technology is used to collect research data. Secondly, some large public buildings in Northwest China are analyzed for energy conservation by using ZigBee and other related technologies and algorithms. Finally, the office buildings in large public buildings are used as samples for the construction of the information model to be analyzed. The research results denote that large public buildings are mainly concentrated in hospitals, hotels, shopping malls, and so on. The south-facing window to wall ratio is higher than that of the north-facing window to wall ratio, and the east-west-facing window to wall ratio has the lowest probability of appearing. In addition, the thermal conductivity of the roof of most of the large buildings is less than 1.0 W, while the thermal conductivity of the outer wall of the roof is distributed around 2.5 W, and the thermal conductivity of the outer wall is around 0.6 W. Finally, commercial buildings have higher heating and cooling loads than residential buildings. In the construction of the information model for energy conservation of large public buildings, the neural networks (NNs) and clustering analysis algorithm are introduced into the prediction model of energy consumption data, and it is found that compared with the actual observed value, the overall trend shows consistency, both of which are periodic fluctuations. However, there are still some errors in some data. Therefore, an analysis of energy conservation data of embedded large public buildings and the construction of information models based on 5G has important guiding significance for the construction industry to improve business performance and market competitiveness.
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10

Zhang, Shen Ju, Jian Li, and Xin Gang Wang. "Application of Green Construction Techniques in Public Buildings: A Case of the Medicine Building in Nanjing Pukou Central Hospital." Advanced Materials Research 374-377 (October 2011): 178–82. http://dx.doi.org/10.4028/www.scientific.net/amr.374-377.178.

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Анотація:
The green building is one important way to develop the energy conservation work. The green construction technology surmounts in the tradition building technology, paying great attention to energy conservation, low consumption and high efficient and environmental protection. The green construction technology is the sustainable construction method. This paper takes the medicine building in Nanjing Pukou Central hospital as an example to analyze the characteristics of the green construction techniques and study the application of the techniques in public buildings.
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Дисертації з теми "Public buildings Energy conservation"

1

Pope, Bryan Christopher. "Creating a framework for the successful implementation of energy retrofit projects: a detailed case study of energy retrofits in Atlanta's Chastain Park." Thesis, Georgia Institute of Technology, 2012. http://hdl.handle.net/1853/43663.

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This paper seeks to develop a framework for the successful implementation of energy retrofit projects in all settings, including those with the non-traditional structure and unique needs of some non-profit organizations. This will be accomplished using researched strategies for overcoming commonly associated challenges along with experiences gained through a real-life case study involving a multi-facility retrofit project in Atlanta's largest public park, Chastain Park. The framework includes the application of research based solutions for common challenges as well as specific strategies for the translation of collected data into an actual scope of work, methods for the collection of bids and selection of contractor(s), the importance of and methods for communicating amongst stakeholders, and the need for a dedicated project manager on site at all times.
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2

Li, Ka-ming. "Energy audit for building energy conservation /." Hong Kong : University of Hong Kong, 1995. http://sunzi.lib.hku.hk/hkuto/record.jsp?B14723244.

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3

Matthews, L. J. "Energy conservation in central urban buildings." Thesis, University of Cambridge, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.332430.

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4

Kwok-hip, Ngan. "Building energy conservation : an overview of building energy performance in Hong Kong /." Hong Kong : University of Hong Kong, 1995. http://sunzi.lib.hku.hk/hkuto/record.jsp?B14723098.

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5

Li, Ka-ming, and 李家明. "Energy audit for building energy conservation." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 1995. http://hub.hku.hk/bib/B31253192.

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6

Wannous, Samaher. "Les économies d'énergie provoquées par la crise pétrolière de 1974 dans les bâtiments publics franciliens." Thesis, Paris, CNAM, 2013. http://www.theses.fr/2013CNAM0931/document.

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Анотація:
La crise pétrolière de 1974 frappe de plein fouet la consommation énergétique. Cette crise bouleverse d’abord la consommation quotidienne, les entreprises qui consomment beaucoup d’énergie (acier, automobile, … etc.), puis l’État qui voit se réduire les taxes pétrolières pour régulariser le marché public. Ainsi les citadins, surtout les parisiens, qui ont peu de ressources énergétiques doivent changer leurs habitudes de consommation. Réduire la consommation énergétique dans la construction devient une nécessité et l’État doit montrer l’exemple. Les bâtiments publics, neufs, rénovés ou restaurés servent d’exemple et illustrent les prises de position de l’État. S’occuper des économies d’énergie dans des bâtiments publics, c’est montrer l’intérêt que l’État manifeste vis-à-vis du domaine public. Le but de ce projet est de reconstituer les manières de repartir les traditions et les décisions dans la gestion énergétique et les nouveaux moyens techniques appliqués à la construction des édifices. Les résultats mettent en évidence cette problématique à travers l’étude de quelques bâtiments publics réalisés/édifiés en Île-de-France rapidement après la crise pétrolière de 1974
The oil crisis of 1974 strikes quite hard the energy consumption. First of all, this crisis has disturbed the daily consumption, the companies which consume a lot of energy (steel, automobile, etc.) Then the State which reduced the oil taxes to settle the public market. The citizens, especially the Parisians who have a little reserve of energy resources may need to change their consumption habits. Reducing the energy consumption in the buildings becomes a necessity and the government has to show the example. The public, new, renewed or restored buildings, display the examples that the government wants to give of its new position. Dealing with the question of energy savings in public buildings, is also showing the governmental interest towards its public sector. See how the traditions and the decisions in the energy management and the new technical means applied to the construction of buildings are the purposes of this research, which highlights this problem and applies it to some of the public buildings realized recently after the oil crisis of 1974 in Ile-de-France
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7

Steemers, Koen. "Energy in buildings : the urban context." Thesis, University of Cambridge, 1992. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.335894.

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8

Wong, Chun-hung Samuel. "Opportunities for building energy conservation in Hong Kong (residential buildings) /." Hong Kong : University of Hong Kong, 1997. http://sunzi.lib.hku.hk/hkuto/record.jsp?B1873439X.

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9

Silva, Gilmar Silvestre da Cruz. "Análise da Sustentabilidade Energética : um estudo do potencial de conservação da energia elétrica nos sistemas de iluminação e condicionamento de ar do IFS – Campus Lagarto." Universidade Federal de Sergipe, 2017. https://ri.ufs.br/handle/riufs/4236.

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The present study estimated the Energy Conservation Potential (PCE) of the lighting and air conditioning systems of the Federal Institute of Sergipe (IFS) – Campus Lagarto. Both systems were classified according to the Technical Regulation of Quality for the Energy Efficiency Level of Commercial Buildings, Services and Public Buildings (RTQ-C), Inmetro Ordinance n.º 372, of September 17, 2010. The analysis was done using the comparative method to check the installed power and how much could be saved if efficient air conditioning units and lamps were used instead of the current ineffective ones. With regard to the lighting system, it was verified that the institution has 66.576 kW of installed load. The efficiency of this system was analyzed by the method of the building activities included in the RTQ-C and the initial hypothesis that the system was inefficient was verified. There was a great amount of burned lamps and that many environments did not have switches to control the lighting circuit in the place where the activities are carried out, besides the lack of natural light and the nonautomation of the places with areas bigger than 240 m2. This made, after checking the requirements, the building receives the C classification. It was simulated the replacement of the fluorescent lamps by LED and found a significant energy conservation potential of 39.90% and it was found enough to completely illuminate the whole building spending only 1.01% more energy than is currently spent with the working lamps. Regarding the air conditioning system, the building has a total of 2.5665 million of BTU/h (752.166 kW or 213.875 TR), implying 271.048 kW of installed power connected to the electric grid. All airconditioned environments in the FIS - Campus Lagarto were evaluated and 91 units were found, distributed in three types: window, split floor -ceiling and split Hi-wall. Of this total, 73 equipment’s are of classification level D, being this also the general conjuncture of the system. When calculating the energy conservation potential, it reached 29.30%, and in some equipment, simple replacement can generate savings of 53.06%. Regarding the emissions from the acquisition of electric energy in the period from 2010 to 2015, the FIS - Campus Lagarto registered the consumption of 1.38 MWh of electricity, incurring 142.181 tCO2 of emissions. It was identified 106 trees planted in the institution, being the minimum quantitative recommended for the neutralization of these of 1655 trees. If FIS - Campus Lagarto wanted to use the carbon credits market to do so, it would have to pay the sum of R$ 2872.44. It is therefore recommended that the institution conduct a complete inventory of its GHG emissions and plant a forest or forest reserve outside the Campus to neutralize its emissions and use it for research and/or scientific studies. It is also suggested to the school that creates a permanent Environmental Education Project aimed at reducing waste in the consumption of electric energy and adoption of environmentally sustainable practices.
A presente pesquisa estimou o Potencial de Conservação de Energia (PCE) dos sistemas de iluminação e condicionamento de ar do Instituto Federal de Sergipe (IFS) – Campus Lagarto. Ambos foram classificados de acordo com o Regulamento Técnico da Qualidade para o Nível de Eficiência Energética de Edifícios Comerciais, de Serviços e Públicos (RTQ-C), Portaria Inmetro n.º 372, de 17 de setembro de 2010. A análise foi feita utilizando-se o método comparativo para verificar a potência instalada e o quanto poderia ser economizado se fossem utilizadas unidades condicionadoras de ar e lâmpadas eficientes no lugar das atuais ineficazes. No que diz respeito ao sistema de iluminação, constatou-se que a instituição possui 66,576 kW de carga instalada. Analisou-se a sua eficiência pelo método das atividades do edifício constantes no RTQ-C e comprovou-se a hipótese inicial de que o mesmo está ineficiente. Verificou-se uma grande quantidade de lâmpadas queimadas e que muitos ambientes não possuíam interruptores para comandar o circuito de iluminação no local onde são realizadas as atividades, além do não aproveitamento da iluminação natural e da não automatização dos locais com áreas maiores que 240 m2. Isto fez, após a verificação dos requisitos, a edificação receber a classificação C. Foi simulada a substituição das lâmpadas fluorescentes por LED e encontrou-se um significativo potencial de conservação de energia de 39,90% e que se constatou suficiente para iluminar completamente todo o prédio gastando apenas 1,01% mais energia do que atualmente é despendido com as lâmpadas operantes. Quanto ao sistema de condicionamento de ar a edificação possui um total de 2,5665 milhões de BTU/h (752,166 kW ou 213,875 TR), implicando em 271,048 kW de potência instalada conectada à rede elétrica. Foram avaliados todos os ambientes climatizados no IFS - Campus Lagarto e encontradas 91 unidades, distribuídas em três tipos: janela, split piso-teto e split Hi-wall. Desse total, 73 equipamentos são de nível de classificação D, sendo esta também a conjuntura geral do sistema. Ao se calcular o potencial de conservação de energia, chegou-se ao número de 29,30%, sendo que, em alguns equipamentos, a simples substituição pode gerar economia de 53,06%. Já em relação às emissões oriundas da aquisição de energia elétrica no período de 2010 a 2015, o IFS – Campus Lagarto registrou o consumo de 1,38 MWh de energia elétrica no intervalo de tempo considerado, incorrendo em 142,181 tCO2 de emissões. Foram identificadas 106 árvores plantadas na instituição, sendo o quantitativo mínimo recomendável para a neutralização destas de 1.655 árvores. Caso o IFS – Campus Lagarto desejasse utilizar o mercado de créditos de carbono para tal, despenderia a quantia de R$ 2.872,44. Recomendase, portanto, que a instituição realize um inventário completo das suas emissões de GEEs e plante um bosque ou uma reserva florestal fora do Campus a fim de neutralizar as suas emissões e utilizá-lo em pesquisas e/ou estudos científicos. Também é sugerido ao estabelecimento de ensino que crie um Projeto de Educação Ambiental local e permanente visando à redução do desperdício no consumo de energia elétrica e adoção de práticas ambientalmente sustentáveis.
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Barakat, Magdi H. "Computation of indoor airflow for thermal comfort in residential buildings." Diss., Georgia Institute of Technology, 1989. http://hdl.handle.net/1853/23308.

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Книги з теми "Public buildings Energy conservation"

1

United States. Ohio River Committee. Energy conservation: Federal shared energy savings contracting : report to congressional requesters. Washington, D.C: The Office, 1989.

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2

Jackson, Mark A. Evaluation of energy conservation measures in Montana public schools. [Helena, Mont.]: Energy Division, Dept. of Natural Resources and Conservation, 1989.

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3

Miller, Robert G. Energy audit report: Palau government buildings. Guam: Robert G. Miller Energy Systems, 1998.

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4

R, Hardcastle, Phillipson R, and Great Britain. Dept. of Energy., eds. Energy use and energy efficiency in UK commercial and public buildings up to the year 2000. London: H.M.S.O., 1988.

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5

Davis, Bob Robert Allen. The institutional buildings program in Washington: An analysis of program impacts. Olympia, WA: Washington State Energy Office, 1987.

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6

Fuller, Sieglinde K. Life-cycle costing manual for the Federal Energy Management Program. Washington: U.S. G.P.O., 1996.

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7

Davis, Bob. The institutional buildings program in Washington: An analysis of program impacts. Olympia, WA (809 Legion Way S.E., FA-11, Olympia 98514-1211): Washington State Energy Office, 1987.

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8

Minnesota. Dept. of Administration. Energy efficiency program in state-owned and wholly state-leased buildings: A report to the Legislature from the Department of Administration. [Saint Paul, Minn.]: Dept. of Administration, 1993.

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9

Maine. Task Force to Advance Energy Efficiency, Conservation and Independence at State Facilities. Report. [Augusta, Me.]: Task Force to Advance Energy Efficiency, Conservation and Independence at State Facilities, 2010.

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10

Brown, D. R. Economic energy savings potential in Federal buildings. Richland, Wash: Pacific Northwest National Laboratory, 2000.

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Частини книг з теми "Public buildings Energy conservation"

1

Yang, Dong-xu. "A Research on the Comprehensive Influential Factors of Energy Conservation in Chinese Public Building." In The 19th International Conference on Industrial Engineering and Engineering Management, 719–28. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-38433-2_77.

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2

Warren, Scott, Scott Moran, and Kristen McGuffin. "Planning to Incorporate Energy Conservation Practices, Renewable Energy Production Systems, and Eco-friendly Building Design Practices to Support Sustainability in US Public Schools." In Handbook of Smart Energy Systems, 1–26. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-72322-4_4-1.

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3

Morović, Tihomir, Franz-Josef Gründing, Fredy Jäger, Eberhard Jochem, Wilhelm Mannsbart, Helmut Poppke, Michael Schön, and Inge Tötsch. "Indicators for the Agricultural/Commercial/Public Sector." In Energy Conservation Indicators, 39–45. Berlin, Heidelberg: Springer Berlin Heidelberg, 1987. http://dx.doi.org/10.1007/978-3-642-73131-0_4.

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4

Veerakumar, C., and A. Sreekumar. "Energy Conservation Potential through Thermal Energy Storage Medium in Buildings." In Sustainability through Energy-Efficient Buildings, 131–49. Boca Raton : Taylor & Francis, CRC Press, 2018.: CRC Press, 2018. http://dx.doi.org/10.1201/9781315159065-7.

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"Energy Consumption Simulation and Energy Conservation Measures for Typical Public Buildings in Chengdu." In International Conference on Green Buildings and Optimization Design (GBOD 2012), 91–98. ASME Press, 2012. http://dx.doi.org/10.1115/1.860137_ch12.

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Yeoman, Douglas N. "Public Buildings and Institutions: Solar Power and Energy Conservation as Solutions." In Sustainable Cities and Communities Design Handbook, 159–74. Elsevier, 2018. http://dx.doi.org/10.1016/b978-0-12-813964-6.00009-4.

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Rakow, Donald A., Meghan Z. Gough, and Sharon A. Lee. "A Look at the Future of Public Gardens." In Public Gardens and Livable Cities, 156–60. Cornell University Press, 2020. http://dx.doi.org/10.7591/cornell/9781501702594.003.0008.

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The final chapter provides a detailed analysis of strategies for successful partnerships and how they can be evaluated. It talks about the American Public Gardens Association's vision to make public gardens an indispensable part of communities. The APGA defines public gardens as institutions that maintain “collections of plants for the purposes of public education and enjoyment, in addition to research, conservation, and higher learning.” Gardens can best lead the way by establishing and demonstrating effective biodiversity conservation strategies in the midst of rapidly changing natural landscapes. One strategy is to preserve locally, regionally, or globally endangered species in their native habitats, which is known as in situ conservation. A second strategy is for public gardens to establish ex situ seed banks or gene banks at their sites that will preserve the genetic identities of species threatened or extirpated in the wild. Public gardens also need to be paragons of sustainable behavior, whether through LEED-certified buildings, SITES-approved landscapes, the use of solar panels and windmills, reduction or elimination of pesticides, or the use of electric vehicles. The public garden of the future will need to partner with architects, urban planners, and progressive corporations to produce a new generation of green buildings and urban gardens, so that cities will become centers of clean air and renewable energy and provide all their residents with easy access to nature.
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Gangolells, M., M. Casals, and A. Fuertes. "Exploring the possibility of promoting energy conservation behaviors in public buildings within the ENCOURAGE project." In eWork and eBusiness in Architecture, Engineering and Construction, 171–78. CRC Press, 2012. http://dx.doi.org/10.1201/b12516-28.

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"Energy conservation strategies." In Energy Management in Buildings, 95–118. Routledge, 2006. http://dx.doi.org/10.4324/9780203349021-13.

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Duckers, L. J. "DEVELOPMENTS IN WAVE ENERGY." In Energy Conservation in Buildings, 243–48. Elsevier, 1991. http://dx.doi.org/10.1016/b978-0-08-037215-0.50048-1.

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Тези доповідей конференцій з теми "Public buildings Energy conservation"

1

Papaioannou, Thanasis G., Dimos Kotsopoulos, Cleopatra Bardaki, Stavros Lounis, Nikos Dimitriou, George Boultadakis, Anastasia Garbi, and Anthony Schoofs. "IoT-enabled gamification for energy conservation in public buildings." In 2017 Global Internet of Things Summit (GIoTS). IEEE, 2017. http://dx.doi.org/10.1109/giots.2017.8016269.

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Li, Yuming, Yiqun Pan, and Chen Chen. "Study on Energy Saving Retrofitting Strategies for Existing Public Buildings in Shanghai." In ASME 2009 3rd International Conference on Energy Sustainability collocated with the Heat Transfer and InterPACK09 Conferences. ASMEDC, 2009. http://dx.doi.org/10.1115/es2009-90262.

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Public buildings include office building, schools, hotels, hospitals, retails and others. This paper selects two types of existing public buildings — office and hotel to conduct research. It firstly introduces and analyzes the feasible energy saving retrofitting strategies and technologies for existing public buildings in Shanghai, mainly about building envelope, HVAC system and lighting system. Then it builds up prototypical models, with whole building energy analysis software—EnergyPlus, for office and hotel respectively to simulate and calculate the annual energy saving and payback period of the various strategies. Therefore the different features of the two types of buildings and the energy saving effects of various strategies used on them are studied. The results show that the energy saved by each one strategy may be different for different types of existing buildings. For office buildings, such ECMs (energy conservation measures) as external shading, energy efficient lighting system, daylighting in perimeter area and variable pumps have short payback period. While for hotels, external shading, variable pumps and temperature reset have short payback period.
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Fang, Xiumu, and Lixin Gao. "Research on the Ratio of Fixed Heating Charges to Total Heating Charges of Residential Buildings in Five Cities of North China." In ASME 2005 International Solar Energy Conference. ASMEDC, 2005. http://dx.doi.org/10.1115/isec2005-76098.

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The ratio of public heating losses to total heating losses is fixed for a given building. The determination of this ratio is the basis for allocating heating charges fairly and reasonably, and is also the basis for determining the ratio of fixed heating charges to total heating charges. The changing rule of the ratio of public heating losses to total heating losses of 15 residential buildings in north China was researched under different conditions, such as different energy conservation performance, different usage and different layout etc, and drew some referable conclusions.
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Al Anzi, Adnan, and Basma Al-Shammeri. "Energy Saving Opportunities Using Building Energy Simulation for a Typical Mosque in Kuwait." In ASME 2010 4th International Conference on Energy Sustainability. ASMEDC, 2010. http://dx.doi.org/10.1115/es2010-90478.

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The weather conditions in Kuwait impose a difficult HVAC building operation due to the hot and arid climate. Most of the time, high ambient temperatures in Kuwait exceed 48° C, which result in difficult indoor comfort condition. Mosques are religious buildings with intermittent occupancy, due to their special cultural and religious requirements. In fact, prayers schedule is scattered throughout five daily times, with a maximum use around noon times on Fridays only. In addition, the number of mosques is increasing, due to population growth, and imposes high electrical load requirements on the public authorities in Kuwait. This paper demonstrates and analyzes thermal behavior of a typical mosque in the state of Kuwait. An energy audit is performed using state of the art building energy simulation software (Visual DOE 4.1). The simulation tool is intended to analyze the thermal behavior of the audited mosques and is used to asses potential energy conservation opportunities for future mosque design in Kuwait. Data collection including drawings, site visits and total daily kWh monitoring are performed to carry out the simulation analysis. It is found that an annual energy use savings up to 72% can be achieved through improvements of buildings envelope designs and operating strategies. In addition, life cycle cost LCC analysis is performed to make economical assessment of the energy conservation measures that are evaluated in this study. It was found that a LCC saving around 40% can be achieved with a simple payback period of less than 4 years.
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Muruganantham, Karthik, Patrick Phelan, Peter Horwath, David Ludlam, and Timothy McDonald. "Experimental Investigation of a Bio-Based Phase Change Material to Improve Building Energy Performance." In ASME 2010 4th International Conference on Energy Sustainability. ASMEDC, 2010. http://dx.doi.org/10.1115/es2010-90035.

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Phase Change Material (PCM) plays an important role as a thermal energy storage device by utilizing its high storage density and latent heat property. One of the potential applications of the PCM is in buildings by incorporating them in the envelope for energy conservation. During the summer cooling season, the main benefits are a decrease in overall energy consumption by the air conditioning unit and the time shift in peak load during the day. Experimental work was carried out by Arizona Public Service (APS) in collaboration with Phase Change Energy Solutions (PCES) Inc. with a new class of organic-based PCM. The experimental setup showed maximum energy savings of about 30%, a maximum peak load shift of ∼ 60 min, and maximum cost savings of about 30%.
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Omitaomu, O. A., B. L. Bhaduri, C. S. Maness, J. B. Kodysh, and A. M. Noranzyk. "CoNNECT: Data Analytics for Energy Efficient Communities." In ASME 2012 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/imece2012-86813.

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Energy efficiency is the lowest cost option being promoted for achieving a sustainable energy policy. Thus, there have been some innovations to reduce residential and commercial energy usage. There have also been calls to the utility companies to give customers access to timely, useful, and actionable information about their energy use, in order to unleash additional innovations in homes and businesses. Hence, some web-based tools have been developed for the public to access and compare energy usage data. In order to advance on these efforts, we propose a data analytics framework called Citizen Engagement for Energy Efficient Communities (CoNNECT). On the one hand, CoNNECT will help households to understand (i) the patterns in their energy consumption over time and how those patterns correlate with weather data, (ii) how their monthly consumption compares to other households living in houses of similar size and age within the same geographic areas, and (iii) what other customers are doing to reduce their energy consumption. We hope that the availability of such data and analysis to the public will facilitate energy efficiency efforts in residential buildings. These capabilities formed the public portal of the CoNNECT framework. On the other hand, CoNNECT will help the utility companies to better understand their customers by making available to the utilities additional datasets that they naturally do not have access to, which could help them develop focused services for their customers. These additional capabilities are parts of the utility portal of the CoNNECT framework. In this paper, we describe the CoNNECT framework, the sources of the data used in its development, the functionalities of both the public and utility portals, and the application of empirical mode decomposition for decomposing usage signals into mode functions with the hope that such mode functions could help in clustering customers into unique groups and in developing guidelines for energy conservation.
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Keller, Michael F. "An Unexpected Solution to the Energy Crisis: Hybrid Nuclear Energy." In ASME 2009 Power Conference. ASMEDC, 2009. http://dx.doi.org/10.1115/power2009-81180.

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The global need for environmentally clean yet inexpensive and reliable energy is a problem that has yet to find a solution. • In one corner are coal plants that can generate low-cost power using abundant reserves of coal, but if emissions are uncontrolled, major health and environmental impacts can occur. • In another corner are natural gas power plants that can produce energy with relatively low emissions, but the cost to the consumer is unpredictable and often high. • Yet another option lies with building nuclear plants that produce emissions-free power, but initial costs are very high and some public unease exists with respect to safety. A major complication is the consensus that burning massive amounts of fossil fuels is a primary culprit behind climate change. While intermittent renewable energy (e.g. solar and wind) and conservation practices can help, the undeniable truth is that the vast quantities of power we continuously consume overwhelm the practical capabilities of the “green” sources. Similar in nature to the fundamentals behind the hybrid automobile, Hybrid-nuclear Energy is an emerging 21st century technology that provides an environmentally sound and economical solution to the power and greenhouse gas dilemmas. This developing energy conversion process uses nuclear and fossil fuels to safely produce reasonably priced electrical power and transportation fuels from our own indigenous sources with the timely benefit of dramatically reduced emissions, particularly CO2. Hybrid-nuclear Energy secures energy independence by using cleaner coal, effectively solves nuclear and coal waste dilemmas, and helps create more affordable nuclear power. These surprising results are achieved by a unique marriage of helium gas reactor, combustion turbine and coal gasification technologies.
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Rosenfeld, A., and D. Hafemeister. "Energy conservation in large buildings." In AIP Conference Proceedings Vol. 135. AIP, 1985. http://dx.doi.org/10.1063/1.35453.

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Artur, Rusowicz, Grzebielec Andrzej, and Rucinski Adam. "Energy conservation in buildings using refrigeration units." In The 9th International Conference "Environmental Engineering 2014". Vilnius, Lithuania: Vilnius Gediminas Technical University Press “Technika” 2014, 2014. http://dx.doi.org/10.3846/enviro.2014.281.

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Stimoniaris, D., D. Tsiamitros, V. Zacharaki, F. Dialynas, T. Kottas, S. Maropoulos, M. Stefanovski, et al. "Energy efficiency in public buildings." In MedPower 2014. Institution of Engineering and Technology, 2014. http://dx.doi.org/10.1049/cp.2014.1705.

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Звіти організацій з теми "Public buildings Energy conservation"

1

Zimring, Mark. Using Qualified Energy Conservation Bonds for Public Building Upgrades. Reducing Energy Bills in the City of Philadelphia. Office of Scientific and Technical Information (OSTI), July 2012. http://dx.doi.org/10.2172/1223008.

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Underwood, David, Brett Garret, and Tapan Patel. Energy conservation in historic buildings. Engineer Research and Development Center (U.S.), September 2018. http://dx.doi.org/10.21079/11681/29353.

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Abraham, M. M., and J. M. MacDonald. Energy conservation opportunities in small commercial buildings. Office of Scientific and Technical Information (OSTI), August 1995. http://dx.doi.org/10.2172/135007.

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Ruegg, Rosalie T. Life-cycle costing for energy conservation in buildings:. Gaithersburg, MD: National Institute of Standards and Technology, 1989. http://dx.doi.org/10.6028/nist.ir.89-4129.

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Ruegg, Rosalie T., and Stephen R. Petersen. Life-cycle costing for energy conservation in buildings:. Gaithersburg, MD: National Institute of Standards and Technology, 1989. http://dx.doi.org/10.6028/nist.ir.89-4130.

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Ruegg, Rosalie T., and Stephen R. Petersen. Life-cycle costing for energy conservation in buildings:. Gaithersburg, MD: National Institute of Standards and Technology, 1992. http://dx.doi.org/10.6028/nist.ir.4778.

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Fuller, Sieglinde K., and Stephen R. Petersen. Life-cycle costing workshop for energy conservation in buildings:. Gaithersburg, MD: National Institute of Standards and Technology, 1994. http://dx.doi.org/10.6028/nist.ir.5165-1.

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Levine, M. D., J. F. Busch, and J. J. Deringer. ASEAN-USAID buildings energy conservation project. Volume 1, Energy standards: Final report. Office of Scientific and Technical Information (OSTI), June 1992. http://dx.doi.org/10.2172/10161207.

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Stenner, R. D., and M. C. Baechler. Health effects associated with energy conservation measures in commercial buildings. Office of Scientific and Technical Information (OSTI), September 1990. http://dx.doi.org/10.2172/6324957.

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Taha, Haider, and Hashem Akbari. Cool roofs as an energy conservation measure for federal buildings. Office of Scientific and Technical Information (OSTI), April 2003. http://dx.doi.org/10.2172/813376.

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