Global ETD Search

51	System Integration of PV/T Collectors in Solar Cooling Systems Ghaghazanian, Arash January 2015 (has links) The demand for cooling and air-conditioning of building is increasingly ever growing. This increase is mostly due to population and economic growth in developing countries, and also desire for a higher quality of thermal comfort. Increase in the use of conventional cooling systems results in larger carbon footprint and more greenhouse gases considering their higher electricity consumption, and it occasionally creates peaks in electricity demand from power supply grid. Solar energy as a renewable energy source is an alternative to drive the cooling machines since the cooling load is generally high when solar radiation is high. This thesis examines the performance of PV/T solar collector manufactured by Solarus company in a solar cooling system for an office building in Dubai, New Delhi, Los Angeles and Cape Town. The study is carried out by analyzing climate data and the requirements for thermal comfort in office buildings. Cooling systems strongly depend on weather conditions and local climate. Cooling load of buildings depend on many parameters such as ambient temperature, indoor comfort temperature, solar gain to the building and internal gains including; number of occupant and electrical devices. The simulations were carried out by selecting a suitable thermally driven chiller and modeling it with PV/T solar collector in Polysun software. Fractional primary energy saving and solar fraction were introduced as key figures of the project to evaluate the performance of cooling system. Several parametric studies and simulations were determined according to PV/T aperture area and hot water storage tank volume. The fractional primary energy saving analysis revealed that thermally driven chillers, particularly adsorption chillers are not suitable to be utilizing in small size of solar cooling systems in hot and tropic climates such as Dubai and New Delhi. Adsorption chillers require more thermal energy to meet the cooling load in hot and dry climates. The adsorption chillers operate in their full capacity and in higher coefficient of performance when they run in a moderate climate since they can properly reject the exhaust heat. The simulation results also indicated that PV/T solar collector have higher efficiency in warmer climates, however it requires a larger size of PV/T collectors to supply the thermally driven chillers for providing cooling in hot climates. Therefore using an electrical chiller as backup gives much better results in terms of primary energy savings, since PV/T electrical production also can be used for backup electrical chiller in a net metering mechanism. PV/T Solar cooling Dubai New Delhi Cape Town Los Angeles Fractional primary energy saving net metering Adsorption TDC Polysun Solar fraction chiller
52	Modelling of a solar pond as a combined heat source and store to drive an absorption cooling system for a building in Iraq Kanan, Safwan January 2017 (has links) This research studies the performance of a salinity gradient solar pond driving an absorption cooling system, as an alternative to a conventional electrically powered cooling system, to provide cool air for a modern single family house in the hot dry climate of Baghdad, Iraq. The system comprises a salinity gradient solar pond, a hot-water-fired absorption water chiller, a chilled-water cooling coil which cools the air in the house, and a cooling tower which rejects heat to the ambient air. Hot brine from the pond circulates through a heat exchanger, where it heats water that is then pumped to the chiller. This arrangement protects the chiller from the corrosive brine. The system is controlled on-off by a room thermostat in the house. The system performance is modelled by dynamic thermal simulation using TMY2 hourly typical weather data. TRNSYS software is used for the main simulation, coupled to a MATLAB model of heat and mass transfer in the pond and the ground beneath it. The model of the pond and the ground is one-dimensional (only vertical transfers are considered). Radiation, convection, conduction, evaporation and diffusion are considered; the ground water at some depth below the pond is treated as being at a fixed temperature. All input data and parameter values in the simulation are based on published, standard or manufacturer's data. Temperature profiles in the pond were calculated and found to be in good agreement with published experimental results. It was found that a pond area of approximately 400 m2 was required to provide satisfactory cooling for a non-insulated house of approximately 125 m2 floor area. It was found that varying the pond area, ground conditions and pond layer thicknesses affected the system performance. The optimum site is one that has soil with low thermal conductivity, low moisture content and a deep water table. It is concluded that Iraq's climate has a potential for solar-pond-powered thermal cooling systems. It is feasible to use a solar-pond-powered cooling system to meet the space cooling load for a single family house in the summer season. Improving the thermal performance of the house by insulation could reduce the required solar pond area.
53	Développement d’un outil de simulation dynamique pour la conception d’une solution de climatisation solaire réversible / Developement of a dynamic simulation tool for the design of a solar reversible climatisation solution Castillo Garcia, Lorenzo 15 March 2016 (has links) Cette thèse s’inscrit dans le cadre du projet SCRIB (“dispositif Solaire de Climatisation Réversible Intégré au Bâti”) porté par la société Helioclim. Ce projet est financé par l’état français dans le cadre des « Investissements d’avenir » pilotés par l’ADEME (Agence de l’Environnement et de la Maîtrise de l’Energie). Le but de ce projet est de développer une solution de climatisation solaire réversible capable de répondre à l’ensemble des besoins thermiques des bâtiments industriels et tertiaires (climatisation, chauffage, production de froid industriel, eau chaude sanitaire). Le système est constitué d’une machine à absorption réversible, alimentée par un système de capteurs solaires innovants. Le cycle de la machine à absorption est en configuration GAX (Generator-Absorber heat eXchange – échange de chaleur entre le générateur et l’absorbeur).Ce travail de thèse s’est intéressé au développement d’un outil logiciel aidant à la conception et au contrôle d’une telle machine. Un modèle de connaissance prenant en compte les paramètres de fonctionnement et de dimensionnement a été ainsi mis en œuvre. L’originalité de ce travail repose sur les points suivants :- L’outil logiciel propose plusieurs modules qui permettent de simuler différentes configurations de machine à absorption (mono ou multi-étagée).- Les propriétés thermodynamiques des mélanges ont été modélisées à l’aide de modèles basés sur l’utilisation d’une équation d’état ou d’un modèle d’enthalpie libre d’excès. Ainsi, le couple fluide pourra être facilement changé.- Un modèle de « Flash Positif » permet de prédire l’état de chaque courant (liquide sous-refroidi, liquide-vapeur ou vapeur surchauffée) sans poser d’hypothèses a priori. Chaque courant est considéré multiconstituant.- Les bilans matière et d’énergie sont écrits pour les différents appareils (évaporateur, absorbeur, détenteur,…).- Le générateur est modélisé par un empilement d’étages théoriques. Les équations MESH (Mass balance, Equilibrium, Summation, Heat balance) ont été écrites pour chaque étage.- Les inerties thermiques et de matière sont prises en compte.Les résultats de simulation obtenus à l’aide de cet outil logiciel ont été comparés avec succès à une étude publiée qui concernait un cycle GAX fonctionnant avec le couple ammoniac/eau. A l’aide de cet outil, le régime permanent et le comportement dynamique du système soumis à une perturbation peuvent être simulés, ce qui peut constituer une aide importante dans le développement de la politique de contrôle du système. / This PhD thesis was carried on in the framework of the SCRIB project (“dispositif Solaire de Climatisation Réversible Intégré au Bâti”) led by the Helioclim company. This project is funded by the French government (“Investissements d’Avenir” operated by the French Agency for Energy and Environment, ADEME). The goal of this project is to develop a reversible solar cooling system which can respond to a set of thermal requirements in industrial and tertiary building sector (cooling system, heating system, industrial cooling system and domestic hot water). Thus an ammonia/water absorption chiller prototype, powered by innovative thermal solar concentrators, has been built. This absorption chiller has a GAX (Generator-Absorber heat eXchange) configuration.This PhD work focused on the development of a support tool for the conception and the control of such device. A software tool has been developed implementing knowledge-based model, which took into account the operating and design parameters of the absorption chiller. The key originalities of the proposed work are as follows:- The software has been designed in a modular way allowing the simulation of various absorption chiller configurations (single or multi-stage).- The thermodynamic properties of the mixture have been modeled by equation of state or excess Gibb’s energy model. The working fluids can then be changed easily.- A “Positive Flash” model allows the description of all the possible states (sub-cooled, super-heated, biphasic…) of the various streams which are all considered as multicomponent mixtures, without a priori assumptions.- The various devices (evaporator, absorber, valves, etc.) are modeled from balance equations (mass, energy). - The generator is modeled using the concept of theoretical plates. MESH equations (Mass balance, Equilibrium, Summation, Heat balance) have been written for each stage.- Both thermal and material inertia are considered.Simulation results obtained with this software have been successfully compared to an earlier published experimental study for a GAX configuration absorption chiller which used ammonia/water as working fluids. Thanks to this tool, the steady state and the transient behavior of the system submitted to a perturbation can be simulated, which can be helpful for the development of the control policy of the absorption chiller. Climatisation Solaire Machine à absorption Modèle Dynamique Equation d’état Flash Positif Etage théorique Solar cooling Absorption Chiller Dynamic Model Equation of State Positive Flash Theoretical plates
54	Implementace kogeneracni jednotky do siti "Smart Heating and Cooling Networks" / Implementation of Cogeneration Unit in "Smart Heating and Cooling Networks" Uhrk, Patrik January 2017 (has links) The aim of the Masterâs thesis was to create a computational model for integration of the cogeneration unit into the smart thermal network. For the better use of waste heat from the selected cogeneration unit MOTORGAS MGM250 during the summer period, the absorption circuit was dimensioned and the appropriate trigeneration computational model was formed. In the theoretical part, the function, operation and heat performance of the cogeneration unit as well as the suitability of the connection of the cogeneration unit with the absorption chiller during the summer period were described. In the practical part, the operational data of the Faculty of Mechanical Engineering of the Brno University of Technology and the theoretical performance data from created cogeneration and trigeneration computational models were compared. Based on this comparison, the conclusion about the suitability of use of both computational models was made.
55	Návrh chladícího okruhu pro odvod tepla z kondenzátoru parní turbíny / Design of a cooling circuit for heat removal from a steam turbine condenser Susna, David January 2018 (has links) This thesis deals with the problems of wounding of low potential transferred from steam turbine condenser. First, in the theoretical part variations of steam condenser design are described. Then there is a description of variations of cooling cycles and possibilities of their operation range. In second part of the thesis there are two common cooler options chosen. Those are wet cooling tower with natural draft and dry chiller with forced draft. Two types of cooling liquid are chosen to be used for dry cooling. These are water and the other one is 50 % mixture of water and propylene glycol. Based on the calculation results of both cooling cycle variations appropriate pumps are chosen, fan for forced convection respectively. Parts of the thesis are also projection drawings for both calculated variations.
56	Analýza možností využití tepla pro ohřev teplé užitkové vody, vytápění a chlazení domácností / The Analysis of the Possibilities of Using Heat Energy for Water Heating, Space Heating and Air Conditioning in the Domestic Sector Almabrok, Almabrok Abdoalhade January 2014 (has links) Rostoucí světová poptávka po méně efektivních zdrojích energie vede ke zvýšení zájmu o kogenerační technologie v sektoru domácností. Pomocí této technologie lze významně snižovat množství znečišťujících látek emitovaných při výrobě elektřiny a tepla pro domácnosti. Kogenerační systémy v sektoru domácností nabízí možnost produkce jak užitného tepla a elektřiny z jednoho zdroje paliva, např. motorové nafty či zemního plynu. Tato práce se zaměřuje na analýzu možností užití kogeneračních a tri-generačních technologií ke zlepšení efektivity využití primárního zdroje energie, zejména v zemích severní Afriky. První část práce se orientuje na obecné definice v oblasti elektroenergetiky, aktuální i budoucí výhled energetické bilance v Libyi. Následující kapitoly se věnují kogeneračním a tri-generačních systémům, jejich charakteristikám se zaměřením na technické parametry, výhodám a nevýhodám těchto systémů a jejich dalšímu rozvoji. Hlavní část práce se zabývá problematikou spotřeby typických rodinných domů ve třech nejdůležitějších městech Libye. Dále předkládá citlivostní analýzu, která je zaměřená na výpočet množství energie vyžadované k pokrytí energetických potřeb typického domu (vytápění, ohřev vody a klimatizace) a porovnání naplnění těchto potřeb při uvažování technických a ekonomických hledisek. Výsledky práce budou využity pro tvorbu pokladů pro Libyjské energetické úřady.
57	Resilient cooling technologies : Simulation study to determine the cooling capacity in old residentialbuildings located in mid-Sweden Ali, Ali Talib January 2022 (has links) The Long-term changes in the climate conditions have increased the need foradequate thermal comfort systems. These alternations influence extremeevents, which their intensity and frequency have increased over the past years.Moreover, this study focuses on space cooling and parameters that the systemshould have to be considered as resilient. Literature study was done to presentthe concept of resilience as well as the different methods used to provide spacecooling. In addition, the cooling systems suggested in this study, which aredistrict cooling and absorption cooling, were presented and explained.Furthermore, the study focuses on cooling demand in a group of residentialbuildings based on different thermal characteristics, which were implementedbased on building regulations from late 1960s to early 1980s. The buildingthermal properties were used as input to obtain their cooling demand by usingbuilding energy simulation tool. Based on the acquired results, an evaluationhas been made for the cooling demand of those buildings. Further analysispresented a correlation between the cooling demand and thermal properties ofthe buildings and aided in the determination of the required cooling capacity.The selection of the capacities was based on the resilience criterion as the systemhas to be able to provide adequate performance and safety for the occupantsduring extreme events. Furthermore, an assessment was done to compare thesuggested system based on their capacities and the primary energy use. cooling cooling demand absorption chiller absorption refrigeration district cooling primary energy resilience residential buildings old buildings cooling capacity. Energy Engineering Energiteknik
58	Solar hot water production and thermal energy storage using phase change materials (PCMs) for solar air-conditioning applications in Morocco / Production de l’eau chaude solaire et stockage latent par matériaux à changement de phase (MCPs) pour les applications de rafraîchissement solaire au Maroc Bouhal, Tarik 02 May 2019 (has links) Cette thèse présente les résultats de recherche, de modélisation et de simulation d'un système de rafraîchissement solaire au Maroc dans le cadre du projet PRSM (Procédés de Rafraîchissement Solaire au Maroc) financé par l'IRESEN (Institut de Recherche en Energie Solaire et Energies Nouvelles). L'objectif est d'étudier les facteurs concernant l'optimisation d'une machine à absorption solaire (LiBr-H2O) sous les conditions marocaines. De plus, un certain nombre de critères de conception, qui peuvent être utilisés par les concepteurs de systèmes de climatisation et de chauffage solaires, ont été établis en tenant compte de considérations énergétiques et économiques. En conséquence, cette thèse couvre quatre aspects. Le premier aspect présente un aperçu de recherche bibliographique sur les technologies solaires, en mettant l'accent sur les systèmes du froid solaire, les processus pertinents existants, l'état du marché, les développements récents des technologies les plus prometteuses et les principaux indicateurs de performance qui figurent dans la littérature. De plus, l'aspect expérimental de l'installation de climatisation solaire adopté dans le projet PRSM a été décrit pour identifier les caractéristiques techniques importantes de l'installation et les difficultés rencontrées lors de la réalisation du prototype. La deuxième dimension concerne la faisabilité technique d'un système de climatisation solaire en se basant sur des indicateurs énergétiques et économiques et prenant en compte les effets combinés des climats, des catégories de bâtiments et des besoins en climatisation dans les conditions marocaines. Le troisième aspect présente le stockage latent de l'énergie thermique utilisant les matériaux à changement de phase (MCPs). Il porte sur l'étude des méthodes numériques utilisées dans la modélisation des phénomènes de changement de phase et se concentre également sur l'ajout des MCPs dans le système de climatisation solaire intégré à l'intérieur du ballon solaire connecté au générateur de la machine à absorption pour évaluer l'amélioration possible du rendement du système. Le quatrième volet de cette thèse présente l'analyse technico-économique et de sensibilité appliquée au développement d'un procédé solaire combiné d'eau chaude sanitaire, chauffage et climatisation au Maroc. L'analyse globale via une généralisation des résultats au niveau national a été réalisée en complément d'une analyse de sensibilité liée à l'investissement dans ces systèmes afin d'évaluer le potentiel de remplacement des technologies traditionnelles par les systèmes solaires et les gains éventuels liés à leur implantation au Maroc. / This thesis reports the results of research into the modeling and simulation of a solar air-conditioning system for Morocco in the framework of the project SCPM (Solar Cooling Process in Morocco) funded by IRESEN (Research Institute for Solar Energy and New Energies). The aim is to investigate the factors concerning the optimization of a LiBr-H2O solar absorption chiller under Moroccan conditions. Further, a number of design criteria, which can be used by designers of solar cooling and heating systems, have been established using energy and economic considerations. Accordingly, this thesis covers four aspects. The first overviews the literature survey on solar technologies with a focus on solar cooling systems which reports the relevant processes, summarizes the market status, presents the recent developments of the most promising technologies and describes the main performance indicators figuring in the literature. Moreover, the experimental aspect of the solar air-conditioning installation adopted in the SCPM project was described to identify the important technical characteristics of the installation and the difficulties encountered during the realization of the prototype. The second dimension concerns the technical feasibility of solar air-conditioning system using energy and economic indicators taking into account the combined effects of climates, building categories and cooling demands under Moroccan conditions. The third aspect presents the latent thermal energy storage using Phase Change Materials (PCMs). It concerns the investigation of numerical methods used in the modeling of phase change phenomena and also focuses on PCMs addition in the solar cooling process integrated inside solar storage tank connected to the generator of the absorption chiller to evaluate the possible enhancement in the system efficiency. The fourth aspect of this thesis outlines the technico-economic and sensitivity analysis applied to the development of a combined processes of solar DHW, heating and air-conditioning in Morocco. The overall analysis via a generalization of the results to the national level was carried out in addition to a sensitivity analysis related to the investment in these systems in order to assess the potential of replacing traditional technologies with the solar systems and the possible earnings related to their implementation in Morocco. Énergie solaire Chauffe-eau solaire Climatisation solaire Machine à absorption Stockage d'énergie thermique MCP Modélisation numérique Optimisation Maroc Solar energy Solar water heaters Solar air-conditioning Absorption chiller Thermal energy storage PCM Numerical modeling Optimization Morocco 621.47
59	Estudo de viabilidade técnico-econômica de pequenas centrais de cogeração a gás natural no setor terciário do Estado de São Paulo / Study of technical and economic feasibility of small cogeneration plants powered by natural gas in the tertiary sector of the state of São Paulo Andreos, Ronaldo 28 February 2013 (has links) Esta dissertação analisa a viabilidade técnico-econômica de pequenas centrais de cogeração a gás natural no setor terciário do estado de São Paulo, os estudos de cogeração foram baseados em casos reais de estabelecimentos comerciais dos principais segmentos do setor terciário com demanda elétrica e térmica compatível ao balanço energético para a configuração de cogeração. A análise dos resultados inclui o fator de utilização de energia (FUE), investimentos iniciais, economia operacional (fluxo de caixa), retorno dos investimentos (Payback), taxa interna de retorno (TIR) e valor presente líquido (VPL). As tecnologias empregadas nos estudos foram gerador do tipo Motor a Combustão Interna (MCI) e Microturbina (TG), resfriador de líquido por absorção (ABS) e resfriador de líquido elétrico convencional. Foi realizada análise do potencial de mercado para aplicação de cogeração através do mapeamento dos principais segmentos do setor terciário e realizado o levantamento do estado da arte. Foram estudadas as legislações brasileiras tanto no que se refere à cogeração qualificada como geração distribuída, realizado análise de emissões com destaque ao comparativo entre emissão de CO2 das centrais de cogeração e a emissão de CO2 das termelétricas a gás natural. Foi realizado estudo do cenário energético brasileiro do ponto de vista geração e distribuição de energia elétrica, cenário da oferta de gás natural no Brasil e a sua estrutura de distribuição no estado de São Paulo e, por fim, foram destacados os benefícios e barreiras da cogeração no Brasil. Os resultados alcançados apontam para um revés na viabilidade financeira da cogeração devido aos consecutivos aumentos no preço da tarifa de gás natural, apesar de bastante racional e com benefícios diretos ao meio ambiente e ao país, fazem-se necessários incentivos específicos relacionados à tarifa do gás natural para o crescimento da aplicação de cogeração no setor terciário do estado de São Paulo. / This dissertation examines the technical and economic feasibility of small cogeneration plants powered by natural gas in the tertiary sector of the state of São Paulo. Cogeneration studies were based on real cases of commercial facilities of the main segments of the tertiary sector with electrical and thermal demands compatible for energy usage in cogeneration configuration. The analysis results include energy utilization factor (EUF), initial investments, operational savings (cash flow), return on investment (payback), internal rate of return (IRR) and net present value (NPV). The technologies investigated in the study were Internal Combustion Engine (ICE) and Microturbine (TG) generator, absorption chiller (ABS) and conventional electrical chiller. It was carried out an analysis of the potential market for application of cogeneration by mapping the main segments of the tertiary sector and conducted a survey of the state of the art. Brazilian laws were studied both with regard to qualified cogeneration and distributed generation, performed emissions analysis with emphasis on the comparative between CO2 emission from cogeneration plant and CO2 emission from power plants by natural gas. It was made a study of Brazilian energy scenario from the viewpoint of generating and distributing of electricity, scenario of supply of natural gas in Brazil and its distribution structure in the São Paulo state and, finally, it was appointed the benefits and barriers of cogeneration in Brazil. The results indicate a setback on the financial viability of cogeneration due to consecutive increases in the price of natural gas, although quite rational and with direct benefits to the environment and the country, it\'s necessary specific incentives related to the natural gas price for the growth of the application of cogeneration in the tertiary sector of the state of São Paulo. absorção absorption chiller Cogeneration Cogeração gás natural generator gerador internal combustion engine microturbina microturbine motor a combustão interna natural gas setor terciário technical and economic feasibility tertiary sector trigeneration trigeração viabilidade técnico-econômica
60	Dynamic optimization of energy systems with thermal energy storage Powell, Kody Merlin 16 October 2013 (has links) Thermal energy storage (TES), the storage of heat or cooling, is a cost-effective energy storage technology that can greatly enhance the performance of the energy systems with which it interacts. TES acts as a buffer between transient supply and demand of energy. In solar thermal systems, TES enables the power output of the plant to be effectively regulated, despite fluctuating solar irradiance. In district energy systems, TES can be used to shift loads, allowing the system to avoid or take advantage of peak energy prices. The benefit of TES, however, can be significantly enhanced by dynamically optimizing the complete energy system. The ability of TES to shift loads gives the system newfound degrees of freedom which can be exploited to yield optimal performance. In the hybrid solar thermal/fossil fuel system explored in this work, the use of TES enables the system to extract nearly 50% more solar energy when the system is optimized. This requires relaxing some constraints, such as fixed temperature and power control, and dynamically optimizing the over a one-day time horizon. In a district cooling system, TES can help equipment to run more efficiently, by shifting cooling loads, not only between chillers, but temporally, allowing the system to take advantage of the most efficient times for running this equipment. This work also highlights the use of TES in a district energy system, where heat, cooling and electrical power are generated from central locations. Shifting the cooling load frees up electrical generation capacity, which is used to sell power to the grid at peak prices. The combination of optimization, TES, and participation in the electricity market yields a 16% cost savings. The problems encountered in this work require modeling a diverse range of systems including the TES, the solar power plant, boilers, gas and steam turbines, heat recovery equipment, chillers, and pumps. These problems also require novel solution methods that are efficient and effective at obtaining workable solutions. A simultaneous solution method is used for optimizing the solar power plant, while a static/dynamic decoupling method is used for the district energy system. / text Thermal energy storage Dynamic optimization Advanced control Smart grid District energy Combined heat and power Solar thermal energy Hybrid energy systems Optimal chiller loading Economic dispatch District cooling District heating Microgrid

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