Bibliografías temáticas / Overheating

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Literatura académica sobre el tema "Overheating"

Autor: Grafiati

Publicado: 4 de junio de 2021

Última modificación: 10 de marzo de 2023

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Artículos de revistas sobre el tema "Overheating"

Newton, Alicia. "Overheating Antarctica". Nature Climate Change 1, n.º 806 (29 de mayo de 2008): 65. http://dx.doi.org/10.1038/climate.2008.51.

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Begka, Christina, Dominique Velin y Michel H. Maillard. "Preventing Overheating". Inflammatory Bowel Diseases 22, n.º 7 (julio de 2016): 1723–36. http://dx.doi.org/10.1097/mib.0000000000000838.

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Schlosshan, Dominik, Gunjan Aggarwal, Gita Mathur, Greg Cranney y Robert Giles. "Amorous overheating?" Lancet 375, n.º 9723 (abril de 2010): 1406. http://dx.doi.org/10.1016/s0140-6736(10)60137-7.

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Hewitt, Paul. "Overheating Motor". Physics Teacher 41, n.º 5 (mayo de 2003): 266–67. http://dx.doi.org/10.1119/1.1571259.

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Strauss, Kendra. "These Overheating Worlds". Annals of the Association of American Geographers 105, n.º 2 (13 de diciembre de 2014): 342–50. http://dx.doi.org/10.1080/00045608.2014.973805.

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Dail, Steve. "Overheating Motor Demo". Physics Teacher 41, n.º 8 (noviembre de 2003): 444. http://dx.doi.org/10.1119/1.1625198.

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Lyons, Randy. "Obesity and overheating". New Scientist 195, n.º 2613 (julio de 2007): 22–23. http://dx.doi.org/10.1016/s0262-4079(07)61820-x.

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Pan, Jie Hua, Yong Zhi Zou, Yi Lin y Jian Min Zeng. "An Investigation on the Overheating of A357 Aluminum Alloy". Advanced Materials Research 97-101 (marzo de 2010): 1049–52. http://dx.doi.org/10.4028/www.scientific.net/amr.97-101.1049.

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The structure and properties of A357 aluminum alloy with different second dendrite arm spacing (SDAS) in different situations of overheating were investigated. The results indicate that serious overheating characteristic structure takes on compound melting ball, crystal separating phase and overheating triangle section; The overheating level of A357 alloy raises with solution temperature increasing; The mechanical properties decrease with the overheating level increasing; The overheating temperature of casting increases as the SDAS decreases, the regression equations of the correlation between SDAS and overheating temperature is as follows: T = 575.46-0.213SDAS; Optimum solution temperature could be selected for A357 alloy with different SDAS depending on supercritical solution region proposed in this paper.

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Bharathidasan, S. "Automatic Transformer Cooling System Using PLC". Asian Journal of Electrical Sciences 8, n.º 1 (5 de febrero de 2019): 20–24. http://dx.doi.org/10.51983/ajes-2019.8.1.2337.

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In the previous 20 years transformer warming is a noteworthy issue in creating station, substation, circulation locale and different territories. The primary driver of overheating are Insulation overheating, Corona overheating, Liquid overheating, Arcing is overheating, screen testing overheating. Because of this it causes numerous issues, for example, Coil harm, bursting of transformer, Block of wind, and so forth. To lessen the warmth which is created from the transformer, to trip the transformer when it is in over warmth condition and the stop the absolute circuit for upkeep period a we have built up this task dependent on Programmable Logic Controller.

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Xing, Yuming, Tong Sun y Xiaoan Hu. "Effect of Pre-creep Time on Creep Life of Nickel-based Single Crystal Superalloy CMSX-4". Journal of Physics: Conference Series 2252, n.º 1 (1 de abril de 2022): 012008. http://dx.doi.org/10.1088/1742-6596/2252/1/012008.

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Abstract The effect of overheating with different time on creep life and strain curve of CMSX-4 nickel-based single crystal superalloy was studied. The overheating tests at different temperatures and stresses were carried out. The tests results showed that the duration of the second stage of creep would be reduced when the overheating happened at the beginning of the creep test. The deformation of the alloy quickly entered the third stage of creep, which obviously reduces the creep life and total strain of the material. When the overheating occurs in the second stage of creep, the rate of strain would increase after overheating and then the total creep life decreased. When the overheating was introduced at the beginning of the creep tests, the strain accumulation during the overheating was greater than that in the second stage of creep. However, the rate of strain after the overheating at the beginning is lower than that in the second stage of creep.

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Tesis sobre el tema "Overheating"

Gichuyia, Linda Nkatha. "Indoor overheating risk : a framework for temporal building adaptation decision-making". Thesis, University of Cambridge, 2017. https://www.repository.cam.ac.uk/handle/1810/270294.

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Overheating in buildings is predicted to increase as a result of a warming climate and urbanisation in most cities. With regards to responding to this challenge, decision makers ranging from_ design teams, local authorities, building users, national programs and market innovators; and during the different stages of a building’s service life, want to know a few pertinent matters: What space characteristics and buildings are at a higher risk and by how much?; What are the tradeoffs between alternative design and/or user-based actions?; What are the likely or possible consequences of their decisions?; What is the impact of climate change to indoor overheating?; among other decision support questions. However, such decision appraisal information still remains buried and dispersed in existing simulation models, and empirical studies, and not yet been clearly articulated in any existing study or model. Especially decision support information articulated in a way that gives each decision maker maximum capacity to anticipate and respond to thermal discomfort in different spaces and through the lifetime of a building. There is a need for an integrated and systematic means of building adaptation decision-support, which provides analytical leverage to these listed decision makers. A means that: 1) assimilates a range of indoor thermal comfort's causal and solution space processes; 2) reveals and enhances the exploration of the space and time-dependent patterns created by the dynamics of the indoor overheating phenomenon through time; and one that 3) imparts insight into decision strategy and its synthesis across multiple decision makers. This study recognises the lack of an overarching framework attending to the listed concerns. Therefore, the key aim of this thesis is to develop and test a building adaptation decision-support framework, which extends the scope of existing frameworks and indoor overheating risk models to facilitate trans-sectional evaluations that reveal temporal decision strategies. The generic framework frames a multi-method analysis aiming to underpin decision appraisal for different spaces over a 50 to 100-year time horizon. It constitutes an underlying architecture that engages the dimensions of decision support information generation, information structuring, its exploration and dissemination, to ease in drawing decision strategy flexibly and transparently. The multi-method framework brings together: 1) Systems thinking methods to a) facilitate the systematic exposure of the elements that shape indoor overheating risk, and b) reveal the processes that shape multi-stakeholder decision-making response over time; 2) The use of normative, predictive and exploratory building scenarios to a) examine the overheating phenomenon over time, and b) as a lens through which to explore the micro-dynamics brought about by aspects of heterogeneity and uncertainty; and 3) The application of both computational and optimization techniques to appraise potential routes towards indoor thermal comfort over an extended time scale by a) tracking shifts in frequency, intensity and distribution of indoor overheating vulnerability by causal elements over time and space; and b) tracking shifting optima of the heat mitigation solution space, with respect to time, climate futures, heterogeneity of spaces, and due to thermal comfort assumptions. The framework’s potential has been demonstrated through its application to office buildings in Nairobi.

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Montazami, Azadeh. "Aircraft noise, overheating and poor air quality in London primary schools' classrooms". Thesis, London Metropolitan University, 2012. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.555145.

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Providing a comfortable environment is the fundamental aim in Architecture. Comfortable environment mainly refers to a surrounding atmosphere which is thermally, acoustically, visually, aesthetically, etc. comfortable. Generally, environmental comfort is assessed by environmental factors such as thermal, acoustic and lighting comfort as well as air quality. There is a significant relationship between various environmental factors and students' academic achievements as well as health. Providing all of the environmental factors together is critical as they are interrelated and could conflict if they are considered separately, if the conditions over the life of the building change or relaxed benchmarks are used for design at the first stage. One of the conflicts reviewed in this study, is the conflict between acoustic comfort with thermal comfort and air quality. The hypothesis of this research is that the naturally ventilated schools located in noisy areas (e.g. Heathrow airport) suffer from overheating and poor air quality as well as a high level of background noise during summer periods, due to the lack of ventilation. The main means of ventilation in majority of the UK schools is window. In noisy areas, the classrooms' occupants (i.e. pupils, teachers) often tend to shut windows especially during silent (such as exams and readings) and lecturing activities to reduce the aircraft noise, which varies from 57dB-75dB according to their distances to Heathrow airport. On an average, as a result of closing windows, the aircraft noise drops by 15dB (depending on the type of windows) which makes the inside noise to be around 42dB-60dB. This is still higher than the 35dB which is the acceptable limit for background noise for primary school classrooms as recommended by Building Bulletin 93. The results of the study show that closing of windows does not reduce the high level of background noise to the recommended level, but it also has two negative impacts on classrooms' environments. Firstly it increases the potential for classrooms to experience overheating and secondly it causes poor air quality due to the lack of sufficient ventilation in the building. Through objective and subjective surveys, classrooms' indoor temperatures, air quality and background noise levels were evaluated and it was learnt that those schools located in the vicinity of Heathrow Airport are more likely to experience overheating and poor air quality. This has a negative impact on students' achievements. In addition, one of the reasons for the lack of environmental comfort is the use of relaxed benchmarks. It is shown in this study that overheating and air quality benchmarks which are proposed by 'Department for Education and Skills' in Building Bulletin 101 and used to design and refurbish the UK schools, are relaxed benchmarks in comparison with the others which are proposed by different organisations and researchers. The overall findings of this thesis have been developed to draw the attention of school designers' to the current and future potential conflicts between the comfort factors in schools' classrooms. To prevent failure, extra care should be taken to select a suitable ventilation strategy for providing both air quality and thermal comfort during summer for the schools located under the flights paths. For such schools, it would be beneficial that the solar gain and internal gain are controlled and heavy thermal mass materials are used for their construction. Such strategies would counterweigh the lack of ventilation in protecting the classrooms from overheating. It is also suggested that a further section is incorporated to the comfort section of the school design assessment tools to evaluate the current and future potential conflict between comfort issues in the schools' buildings. In addition, air quality and summer thermal comfort guidelines incorporated to BB 101 are recommended to be revised (similar to the acoustic section of this guideline which was revised to stringent benchmarks for background noise level and reverberation time and included in BB93).

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Sougkakis, Vasileios. "An investigation into the overheating risk in low-energy new-built homes". Thesis, University of Nottingham, 2017. http://eprints.nottingham.ac.uk/39465/.

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Recently, overheating in British housing has received increased attention due to climate change and consequent impact on the thermal comfort and the health of building occupants. The risk of overheating becomes even larger considering the requirements for higher insulation and airtightness levels set by building regulations. Passive design strategies, such as the use of thermal mass and ventilation, for regulating indoor temperatures may improve the thermal comfort of occupants without the use of energy intensive equipment. Modern Methods of Construction (MMC) are expected to play a significant role in the future outputs of the housing construction sector. However, MMC, which generally present low levels of thermal mass, are treated with scepticism by designers since they are considered to be more prone to overheating compared to masonry constructions. Due to the lack of extensive research data on the thermal performance of these systems, however, it can be inferred that concerns may be based on the perception of the industry rather than actual data. Therefore, the work presented in this thesis investigated the risk of overheating in dwellings built with MMC. The analysis considered the performance of the constructions from various perspectives following a route from the general investigation to the more specific characteristics of the building elements. First, an investigation of the zone temperatures obtained through monitoring and through whole building dynamic simulations was performed, in an attempt to evaluate the relative performance of different construction types and building elements. Next, the interaction of the various building elements with their surrounding space was assessed through monitoring the heat flows and the temperatures on the surface of these elements in situ. Finally, a more detailed investigation of the dynamic characteristics of these elements under fixed conditions was conducted through laboratory testing and Finite Element Analysis (FEA). A parametric simulation study of ambient temperatures in a timber frame building considered the potential to use non-traditional materials for regulating internal temperatures. Results showed that overheating was an issue in most of the zones examined for the conventional timber frame construction. The use of additional materials resulted in reduced overheating levels of up to 85% in some cases; this evidence may be used to inform designers when considering measures to reduce the overheating risk of MMC. In another study of two houses built with different construction methods, it was found that the timber frame and modern masonry walls had very similar performance, with the latter presenting slightly reduced levels of overheating in some cases (up to 12% lower compared to timber frame). Monitoring the heat flows at the surface of the building elements in situ as well as through laboratory testing and FEA showed that difference in performance between masonry constructions and MMC was not always as clear as expected from the construction characteristics of the elements. It was clear that conventional masonry constructions do not benefit fully from the increased mass and had comparable performance with some MMC. Phase Change Materials (PCM) were also found more responsive than conventional plasterboard in situ, although some discrepancy compared to the theoretical performance was identified. The findings of this study may be useful for designers so that optimum use of the benefits of thermal mass is made.

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Hernandez, Tascon Mauricio. "Experimental and computational evaluation of thermal performance and overheating in double skin facades". Thesis, University of Nottingham, 2008. http://eprints.nottingham.ac.uk/10628/.

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Double Skin Facades (DSFs) have been developed as an alternative technology to improve the thermal performance of conventional fully glazed buildings. Nevertheless, there is little test information on the behaviour and real performance of DSFs. This is specifically the case when the facade has to perform under extreme or moderate summer conditions. The characteristics of thermal overheating of a specific type of DSF with various configurations and its practical control have not been subjected to systematic experimental and computational investigations. This research which is based on an existent load of knowledge, carried out experiments of a full-scale one-storey laboratory chamber of a selected type of Double Skin Facade in which a comparative analysis of the thermal performance is assessed, CFD simulations of the experimental model and a Field Case Study of an existing building in the United Kingdom is also monitored. The basic thermal behaviour in the facade cavity and adjacent room is investigated by a series of parametric studies and basic flow field investigations. Section models of the DSF chamber and the case building were made and modelled using CFD in order to visualise the thermal and airflow behaviour inside the DSF complementing the experimental and field work. The modelling work has demonstrated the feasibility and versatility of the technique for probing the flow and thermal behaviour of double skin facades. It was found that natural ventilation through the cavity by a series of controlled opening shafts on the upper and lower facade are effective means to reduce DSF overheating. It was also observed that the optical properties of cavity elements, cavity depth size, solar control and the basic operation of the facade are key issues to address in order to prevent overheating and additional heat loads from the facade.

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Murphy, John T. "Overheating of low-allow forging steels for nuclear power plant rotors and vessels". Thesis, Massachusetts Institute of Technology, 1995. http://hdl.handle.net/1721.1/37531.

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Thomson, Susan C. "Why do bats fly at night? : the role of hyperthermia in constraining diurnal flight in bats". Thesis, University of Aberdeen, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.323141.

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Curry, Heather Renee. "A Semiotic Phenomenology of Homelessness and the Precarious Community: A Matter of Boundary". Scholar Commons, 2015. http://scholarcommons.usf.edu/etd/5672.

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My dissertation focuses on the articulation of the concepts of precarity —i.e., temporary, affective, creative, immaterial and insecure labor—and community in an overheating system. My site of inquiry is homelessness broadly, but more specifically the labor of panhandling and the identity of “the panhandler.” I recognize that primary theorizations of precarity have located it as a problem of labor and economy. Others have looked at it from the sociological domain. My work looks at precarity as diffuse across social, political, and communal systems, but primarily as an effect of the problem of overheating as it manifests at varying levels of scale. Narrowing the global vision of such instability and insecurity to a local landscape—to streets, corners, traffic, the people who occupy infrastructural liminal zones and whose lives are precariously bound to the forces of speed and heat—reveals the critical nature of elemental metaphors. That is to say, if we might accept the thesis that we are in an epoch in which speed and time subsumes space and place, and if speed is another way of talking about heat, about intensities, then communication in the over-sped, overheated system is in dire straights. Precarity, I argue, is not causally linked to the breakdown in economy or the breakdown in affiliative bonds or networks—it does not precede or presage these shutdowns. Rather it is the shutdown. Precarity may now be viewed as the management and organization of social, political, affective, and communal bonds around economic and affiliative insecurities. I use ethnographic data from institutional meetings, and conversations with the key stakeholders at varying levels of scale, as well as textual analyses of local policies, news coverage, and public responses to those texts in order to understand how precarious communicative conditions affect the structuration of community and politics.

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Reiter, Christoph Nikolaus. "Polymeric solar-thermal flat-plate collectors". Thesis, De Montfort University, 2014. http://hdl.handle.net/2086/10755.

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State-of-the-art solar-thermal flat-plate collectors suffer from a limited potential to decrease production costs for the necessary higher economic benefit of so-lar-thermal systems. Costly metallic materials and corresponding manufactur-ing processes prevent further cost reductions. For that issues, plastic materials can offer a promising approach. The main hurdle for the use of cost-effective plastics lies in the high thermal loads on the collector components — absorber and insulation — which were identified in a field-testing. The necessary overheating protection approaches to lower these thermal loads were investigated in a literature review. A large number of relevant concepts was evaluated related to achievable temperature reduction, influence on solar yield, additional costs and intrinsic safety. There-fore, a mathematical model was developed to determine the solar-thermal col-lector´s behaviour in a solar-thermal system for hot water and space heating. This way, the most promising overheating concepts were simulated and ana-lysed with regard to component temperatures and system performance. Omitting the selective absorber coating and reducing the backside insulation was found to be the most suitable solution for component materials with limited temperature resistance like polypropylene. In the second part of the research, collector design concepts were developed on the basis of the characteristics of plastic material processing. The identified unit costs showed savings of more than 50 % in comparison to stateof- the-art collectors. The analysis regarding temperature loads and annual solar yield by simulation proved the performance of the concepts. The collector costs and the simulation results were used to define the total costs of the solar-thermal sys-tems and to evaluate the economic benefits by means of the collector con-cepts. The benefits were similar to state-of-the-art set-ups. Thus, further adjustments at system level are necessary to lower the total costs. Therefore, the system set-up has to be harmonised with the collector requirements and investigated in detail.

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Khalifa, Moataz. "Application of phase change materials as a solution for building overheating : a case for the UK". Thesis, University of Nottingham, 2013. http://eprints.nottingham.ac.uk/13837/.

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In the UK, there are about 26 million houses and the government’s future plan is to build 3 million more by 2020 (BBC, 2008, Jason, 2011). As the demand for housing increases, especially for single occupant homes, the rate of energy consumption and, in effect, the proportion of CO2 emissions is on the rise. Successful sustainable energy strategies for domestic buildings can thus be an effective tool for mitigating these effects and achieving healthy building conditions. The main aim of the research are obtaining comfortable building spaces by reducing any overheating and reduce energy demand by using passive method which also will reduce the emission of CO2. Also this work aims to raise attention on the influence of the domestic sector on the amount of CO2 emissions by using low thermal mass construction. Thus, the research’s objectives are divided into firstly, investigate the opportunity of improving the Micronal Phase Change Material (MPCM) thermal conductivity and secondly, studying the influence of using enhanced MPCM for reducing overheating in lightweight building construction. This research investigates means of improving the thermal performance of the UKs existing and new domestic buildings stock. In order to increase thermal resistance and hence reduce heat losses, a new panel comprised of outer coating and thin layer or aerogel to increase thermal resistance was developed which could be added to the exterior walls of existing houses. This research results have shown from the experimental work when MPCM coupled with construction materials that the percentage of MPCM should not be above 50% otherwise it will reduce the potential benefit of the mixture to enhance thermal conductivity of MPCM. The best thermal conductivity was obtained by mixing 20% PCM, 75% Gypsum and 5% Silica with honeycomb, which gave a value of 0.306 W/mK. On the other hand, the best thermal conductivity was obtained using the clay by mixing 40% MPCM, 20% Clay and 40% cement, which gave a value of 0.253 W/mK. The simulation results shown that natural night ventilation could help reduce the overheating period to about 50% with the use of MPCM. Finally, The results of the new external wall panel that has been developed to improve the thermal performance have shown that through application of these panels a substantial reduction between 3 ºC to 5 ºC in the internal temperature.

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Kessentini, Hamdi. "Numerical and experimental study of a flat plate collector with honeycomb transparent insulation and overheating protection system". Doctoral thesis, Universitat Politècnica de Catalunya, 2014. http://hdl.handle.net/10803/144658.

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In this thesis a flat plate collector (FPC) with plastic transparent insulation materials (TIM) and a low-cost overheating protection system destined for heat supply from 80 to 120°C is presented. A ventilation channel with a thermally actuated door is inserted below the absorber allowing to protect the collector from stagnation conditions, while preserving good performance during normal operation. For this objective, a prototype has been constructed and experimentally tested and in parallel, numerical and CFD models have been implemented with the aim of predicting the thermal behavior of this collector. The present thesis consists of six chapters and a brief summary of each one is given below: In the first chapter, a literature survey is carried out in order to present the most updated R&D status in the field of solar heat at medium temperatures. This literature research has allowed to appreciate the latest findings and key challenges related to the studied topic and to present the contribution of this work to the pool of existing knowledge. The second chapter is devoted to the description of the experimental set up. The problem of overheating for FPC with TIM is first pointed out and the technical description of the studied FPC is then presented. The different sensors used and the test procedures adopted during the experiments are presented. In the third chapter, a fast calculation numerical model is implemented. This model is based on the resolution of the different components of the collector by means of a modular object-oriented platform. Indoor and outdoor tests are performed and have shown the effectiveness of the overheating system being able to maintain low enough temperatures at the collector preventing thus the plastic TIM from stagnation conditions. The comparison of the numerical results with experiments has demonstrated that the code can accurately reproduce the performance of the collector. Several parametric simulations are then performed in order to optimize the collector design: 3125 different configurations are evaluated by means of virtual prototyping and the results have allowed to propose the most promising design of a stagnation proof FPC with plastic TIM able to work at operating temperature 100°C with promising efficiency. In the forth chapter, the most critical elements of the collector (ventilation channel and air gap&TIM) have been substituted by high-level CFD objects in the implemented modular object-oriented code. For the detailed numerical simulations, Large Eddy Simulations (LES) modeling is used. In order to speed-up the simulations, parallelisation techniques are used. The numerical solutions are firstly validated with benchmark cases. Then, the general model of the collector is validated by comparison of the numerical results with the indoor experimental tests showing a reasonable agreement. The preliminary CFD simulation results have allowed to understand the heat transfer and fluid flow at different operating temperatures of the studied collector. In the fifth chapter, a heat transfer analysis of the honeycomb TIM is carried out. The combined radiation and conduction heat transfer across the isolated cell is treated by means of the solution of the energy equation in its three dimensional form which is coupled to the Radiative Transfer Equation (RTE). The Finite Volume Method is used for the resolution of the RTE. The numerical results are compared to experimental measurements of the heat transfer coefficient on various honeycomb TIM given by different authors in the literature showing acceptable agreements. Finally, a parametric study is conducted in order to investigate the effect of the variation of the most relevant optical and dimensional parameters of the TIM on the heat transfer. Finally, the last chapter summarizes the contribution of this thesis and discuss the possible directions of future research.

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Libros sobre el tema "Overheating"

Cooper, Ken. Overheating as a factor in house design. Ottawa, Ont: CANMET Energy Technology Centre, 1997.

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Aghamohammadi, Nasrin y Mat Santamouris, eds. Urban Overheating: Heat Mitigation and the Impact on Health. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-4707-0.

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Deroose, Servaas. Reviewing adjustment dynamics in EMU: From overheating to overcooling. Brussels: Directorate-General for Economic and Financial Affairs, 2004.

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Oomes, Nienke. The utilization-adjusted output gap: Is the Russian economy overheating? [Washington, D.C.]: International Monetary Fund, European Dept. and Policy Development and Review Dept., 2006.

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Clark, P. Phillips curves, Phillips lines and the unemployment costs of overheating. London: Centre for Economic Performance, 1997.

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IMF. Western Hemisphere Dept. Regional Economic Outlook, April 2011: Western Hemisphere: Watching Out for Overheating. Washington, D.C.: International Monetary Fund, 2011. http://dx.doi.org/10.5089/9781616350659.086.

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Survivability under Overheating. MDPI, 2020. http://dx.doi.org/10.3390/books978-3-03943-870-9.

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Eriksen, Thomas Hylland. Overheating: Understanding Accelerated Change. Pluto Press, 2016.

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Eriksen, Thomas Hylland. Overheating: Understanding Accelerated Change. Pluto Press, 2016.

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Capítulos de libros sobre el tema "Overheating"

Dunster, Bill, Craig Simmons y Bobby Gilbert. "Overheating Risk Assessment". En the ZED book, 187–94. London: Taylor & Francis, 2021. http://dx.doi.org/10.4324/9781003073130-19.

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Ucci, Marcella, Stephanie Gauthier y Anna Mavrogianni. "Thermal Comfort And Overheating". En A Handbook of Sustainable Building Design and Engineering, 226–40. Second edition. | Abingdon, Oxon ; New York, NY : Routledge, [2018]: Routledge, 2018. http://dx.doi.org/10.1201/9781315172026-19.

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Baglio, Ettore. "Overheating Indexes and Honey Quality". En SpringerBriefs in Molecular Science, 23–40. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-65751-6_3.

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Dooley, Neil. "Portugal’s Economic Crisis: Overheating Without Accelerating". En Crisis in the Eurozone Periphery, 73–91. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-69721-5_4.

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Wu, Simei, Xiaojun Liu y Bao-Jie He. "Impact of Urban Overheating on Critical Infrastructure". En Climate Change and Environmental Sustainability, 83–89. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-12015-2_9.

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Cusidó, J. A., J. J. Escobar, J. Esteve, J. Jorge, A. Mitjà, J. Puigdomènech y C. Torra. "Overheating in Bioclimatic Architecture in Mediterranean Climates". En 1989 2nd European Conference on Architecture, 115–18. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-017-0556-1_34.

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Mavrogianni, Anna, Ioanna Tsoulou, Clare Heaviside, Eleni Oikonomou, Giorgos Petrou, Phil Symonds, Mike Davies, Jonathon Taylor, Ai Milojevic y Paul Wilkinson. "Urban Overheating and Impact on Health: An Introduction". En Advances in Sustainability Science and Technology, 1–20. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-4707-0_1.

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Langdana, Farrokh K. "Demand-Side Stabilization: Overheating, Hard Landing, and SAP Bubbles". En Springer Texts in Business and Economics, 83–124. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-32854-6_5.

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Kassomenos, Pavlos y Paraskevi Begou. "The Impact of Urban Overheating on Heat-Related Morbidity". En Advances in Sustainability Science and Technology, 39–80. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-4707-0_3.

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Jamei, Elmira y Nigel Tapper. "Urban Overheating and the Impact on Health in Melbourne". En Advances in Sustainability Science and Technology, 233–48. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-4707-0_12.

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Actas de conferencias sobre el tema "Overheating"

Cobbing, C. y D. Fiumicelli. "ACOUSTICS AND OVERHEATING- WHERE NEXT?" En ACOUSTICS 2021. Institute of Acoustics, 2021. http://dx.doi.org/10.25144/13766.

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Ebrinc, Ali Aslan y Zeynep N. Cehreli. "Overheating Investigation on 5-Cylinder Engine". En SAE Brasil 2007 Congress and Exhibit. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2007. http://dx.doi.org/10.4271/2007-01-2570.

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Infantini, Mauricio Blanco, Eduardo André Perondi, Ney Francisco Ferreira y Jose Antonio Esmerio Mazzaferro. "OVERHEATING OF DRUM BRAKES IN DOWNHILLS". En 2006 SAE Brasil Congress and Exhibit. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2006. http://dx.doi.org/10.4271/2006-01-2560.

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Teli, Despoina, Mark F. Jentsch, Patrick A. B. James y AbuBakr S. Bahaj. "Overheating Risk Evaluation of School Classrooms". En World Renewable Energy Congress – Sweden, 8–13 May, 2011, Linköping, Sweden. Linköping University Electronic Press, 2011. http://dx.doi.org/10.3384/ecp110571821.

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Bystrov, A., V. Merzlikin, T. Vornova y F. Zagumennov. "Radiant Overheating of Semitransparent Glacier Cover". En 2019 IEEE International Conference on Architecture, Construction, Environment and Hydraulics (ICACEH). IEEE, 2019. http://dx.doi.org/10.1109/icaceh48424.2019.9042093.

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Taylor, S. W., S. Wang, Theodore E. Simos, George Psihoyios y Ch Tsitouras. "Overheating Steel in an Annealing Furnace". En NUMERICAL ANALYSIS AND APPLIED MATHEMATICS: International Conference on Numerical Analysis and Applied Mathematics 2009: Volume 1 and Volume 2. AIP, 2009. http://dx.doi.org/10.1063/1.3241369.

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Attia, Shady, Ramin Rahif, Abdulrahman Fani y Mohamed Amer. "Comparison of overheating risk in nearly zero energy dwelling based on three different overheating calculation methods". En 2021 Building Simulation Conference. KU Leuven, 2021. http://dx.doi.org/10.26868/25222708.2021.30147.

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Liou, Meng-Sing. "The Root Cause of the Overheating Problem". En 23rd AIAA Computational Fluid Dynamics Conference. Reston, Virginia: American Institute of Aeronautics and Astronautics, 2017. http://dx.doi.org/10.2514/6.2017-4107.

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Fournier, D. "Diagnostic of overheating underground distribution cable joints". En 16th International Conference and Exhibition on Electricity Distribution (CIRED 2001). IEE, 2001. http://dx.doi.org/10.1049/cp:20010726.

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Girnik, A. S. y R. C. Dixon. "Control of overheating condition for induction motors". En 2012 7th International Forum on Strategic Technology (IFOST). IEEE, 2012. http://dx.doi.org/10.1109/ifost.2012.6357700.

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Informes sobre el tema "Overheating"

Reiter, Christoph, Dr Sebastian Brandmayr, Dr Christoph Trinkl y Prof Dr Ing Wilfried Zörner. IEA-SHC Task 39 INFO Sheet B4 - Overheating protection. IEA Solar Heating and Cooling Programme, mayo de 2015. http://dx.doi.org/10.18777/ieashc-task39-2015-0017.

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Dentz, J., K. Varshney y H. Henderson. Overheating in Hot Water- and Steam-Heated Multifamily Buildings. Office of Scientific and Technical Information (OSTI), octubre de 2013. http://dx.doi.org/10.2172/1107467.

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Kramer, J. M., J. D. Demaree y E. E. Gruber. Dynamics of axial extrusion of metallic fuel during overheating transients. Office of Scientific and Technical Information (OSTI), diciembre de 1985. http://dx.doi.org/10.2172/711809.

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Schiebler, Bert, Federico Giovannetti y Stephan Fischer. INFO Sheet B03: Reduction of Maintenance Costs by Preventing Overheating. IEA SHC Task 54, octubre de 2018. http://dx.doi.org/10.18777/ieashc-task54-2018-0009.

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Resch, Katharina, Andreas Weber y Dieter P. Gruber. IEA-SHC Task 39 INFO Sheet C3 - Overheating protection thermotropic layer. IEA Solar Heating and Cooling Programme, mayo de 2015. http://dx.doi.org/10.18777/ieashc-task39-2015-0018.

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Thür, Alexander, Claudia Hintringer, Norbert Hauer, Wolfgang Streicher, Robert Hausner, Alexander Kaiser y Gernot Wallner. IEA-SHC Task 39 INFO Sheet B5 - Collector Overheating Protection with Backcooler. IEA Solar Heating and Cooling Programme, mayo de 2015. http://dx.doi.org/10.18777/ieashc-task39-2015-0009.

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Driggers, S. A. Summary of canister overheating incident at the Carbon Tetrachloride Expedited Response Action site. Office of Scientific and Technical Information (OSTI), marzo de 1994. http://dx.doi.org/10.2172/10140925.

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Schiebler, Bert, Federico Giovannetti y Stephan Fischer. INFO Sheet B05: Levelized Cost of Heat for Solar Thermal Systems with Overheating Prevention. IEA SHC Task 54, octubre de 2018. http://dx.doi.org/10.18777/ieashc-task54-2018-0011.

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Hatch, Maren, Thomas Awe, Brian Hutsel, Edmund Yu, Luis Jauregui, Erin Barrick y Mark Gilmore. The study of local overheating and plasma formation on stainless steel z-pinch targets. Office of Scientific and Technical Information (OSTI), septiembre de 2022. http://dx.doi.org/10.2172/1888877.

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