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21	Modelling and design of a latent heat thermal storage system with reference to solar absorption refrigeration Kantole, Joseph Basakayi 24 October 2012 (has links) M.Ing. / The research in this thesis focuses on the theoretical thermal modelling and design of a Latent Heat Storage system (LHS) for an absorption refrigeration machine. A shell-and-tube latent heat storage exchanger retaining any excess solar thermal energy is selected. Here, solar thermal energy supplied by a collector is transferred to and stored by the LHS. During low insolation, stored thermal energy is transferred by a Heat Transfer Fluid (HTF) into the generator, a component of an Ammonia Absorption Refrigerator (AAAR), to ensure efficiency of the cooling cycle. The shell-and-tube LHS contains Phase Change Material (PCM) which fills space outside the tube heat exchangers. The HTF flowing through the tubes exchanges thermal energy with the PCM. The selection of a suitable PCM for a LHS is based on several factors. A primary criterion for an efficient, reliable storage unit is the correct melting point of the PCM at a desired operating temperature of the heating application. An analytical model describing both the freezing process in the PCM and increased HTF temperature in the tube heat exchangers is investigated. The model is developed using energy balance equations. It is solved in terms of dimensionless parameters. The thermal resistance of the tube heat exchangers is considered for this model. From the result of the analytical model, the design approach to size the LHS is provided and the different steps are given in order to determine the volume, mass, number of tube heat exchangers, inner and outer radius of the tube heat exchangers and other parameters of the LHS. The dimensions of LHS are given as a function of a storage period, PCM properties, HTF properties, inner and outer radius of the tube heat exchangers, material of construction of the tube heat exchangers and the nature of load on the heating process. Simulations from the analytical model developed are provided for the output thermal parameters of the storage system. These thermal parameters of the shell-and-tube latent exchanger are given in terms of the HTF outlet temperature, the front solidification of the PCM and the heat transfer rate during the solidification process of the PCM. A case study to demonstrate the application of the design approach with respect to the size shell-and-tube latent heat exchanger is provided.The integration of the tube heat exchangers thermal conductivity in the modelling of the LHS resulted in an increase of 2% in mass of the storage material compared to an analytical model neglecting the thermal conductivity of the tube heat exchangers. The results of the model developed compared well with the results obtained from other analytical models at similar operating conditions. Solar thermal energy Heat storage Heat exchangers
22	A mathematical model for temperature and heat loss characteristics of underfloor electrical resistance heating and storage system Hoang, Trung Quang. January 1985 (has links) Call number: LD2668 .T4 1985 H62 / Master of Science Resistance heating. Heat storage. Heat--Transmission--Computer programs. Masters theses
23	Heat storages in Swedish district heating systems : An analysis of the installed thermal energy storage capacity / Värmelager i svenska fjärrvärmenät : En analys av den installerade kapaciteten av värmelager Eriksson, Robin January 2016 (has links) District heating is the most common source of heating in Sweden and has played a crucial part in the country’s substantial reductions of carbon dioxide emissions. This recycling technology is ideal in order to use thermal energy as efficiently as possible and makes the goals set for a sustainable future more achievable. The future potential of this technology is therefore huge. Today, a lot of the district heating systems have installed heat storages in order to improve the systems reliability and performance. These heat storages have the potential to be utilized even further in the future by acting as a balancing power for the power grid. However, there is currently no data available regarding the storage capacity available in the district heating systems. This thesis therefore seeks to quantify the installed storage capacity in Swedish district heating systems. The data gathered regarding this can then be utilized in research regarding potential future applications of heat storages, such as balancing the power grid. All collected data regarding heat storage capacity has also been analyzed in an effort to find any correlations between the relative storage capacity and the size, energy sources, customer prices and operational costs of each investigated system. This analysis has concluded that most of the district heating systems in Sweden have installed storage capacity and that it is more commonly used in larger systems. It is also concluded that most of the installed storage capacity is used to counteract daily heat load variations. The heat storages influence district heating systems by reducing their operational costs as well. / Den vanligaste formen av uppvärmning i Sverige är fjärrvärme. Sverige har minskat landets utsläpp av koldioxid kraftigt det senaste årtiondet och fjärrvärmen har bidragit stort till denna bedrift. Denna teknologi är ideal när det gäller att återvinna samt använda värme så effektivt som möjligt. Potentialen för den teknik i framtiden är därför stor. Många fjärrvärmesystem har idag värmelager i systemet för att öka dess effektivitet och pålitlighet. Dessa värmelager kan potentiellt utnyttjas ännu mer i framtiden genom att aggera som balanskraft för elnätet. Det finns dock ingen data tillgänglig gällande lagerkapaciteten som finns tillgänglig i fjärrvärmesystemen i dagsläget. Syftet med detta examensarbete är därför att kvantifiera och analysera den installerade lagerkapaciteten i Sveriges fjärrvärmesystem. Den insamlade datan kan sedan användas i studier för framtida applikationer för värmelager, så som att agera som balanskraft för elnätet. All insamlad informationen om värmelagernas kapacitet har även analyserats för att hitta samband mellan den relativa lagerkapaciteten för varje fjärrvärmesystem och dess storlek, energikällor, kundpriser samt driftkostnader. Slutsatser som har dragits från denna analys är att de flesta fjärrvämesystemen i Sverige har värmelager installerade, samt att värmelager är vanligare i större fjärrvärmesystem. De flesta värmelagren används till att balansera daliga variationer i värmelasten och värmelager sänker även driftkostnaderna för fjärrvärmesystemen. District heating Sustainable Heat storage Quantification Fjärrvärme Hållbart Värmelager Kvantifiering
24	Analysis of underground thermal energy storage systems with ground water advection in subtropical regions He, Miaomiao., 何苗苗. January 2007 (has links) published_or_final_version / abstract / Mechanical Engineering / Master / Master of Philosophy Heat storage. Underground storage. Heat exchangers. Groundwater flow.
25	Spherical Tanks for Use in Thermal Energy Storage Systems Khan, Fahad 26 April 2015 (has links) Thermal energy storage (TES) systems play a crucial part in the success of concentrated solar power as a reliable thermal energy source. The economics and operational effectiveness of TES systems are the subjects of continuous research for improvement, in order to lower the localized cost of energy (LCOE). This study investigates the use of spherical tanks and their role in sensible heat storage in liquids. In the two tank system, typical cylindrical tanks were replaced by spherical tanks of the same volume and subjected to heat loss, stress analysis, and complete tank cost evaluation. The comparison revealed that replacing cylindrical tanks by spherical tanks in two tank molten salt storage systems could result in a 30% reduction in heat loss from the wall, with a comparable reduction in total cost. For a one tank system (or thermocline system), a parametric computational fluid dynamic (CFD) study was performed in order to obtain fluid flow parameters that govern the formation and maintenance of a thermocline in a spherical tank. The parametric study involved the following dimensionless numbers: Re (500-7500), Ar (0.5-10), Fr (0.5-3), and Ri (1-100). The results showed that within the examined range of flow characteristics, the inlet Fr number is the most influential parameter in spherical tank thermocline formation and maintenance, and the largest tank thermal efficiency in a spherical tank is achieved at Fr = 0.5. Experimental results were obtained to validate the CFD model used in the parametric study. For the flow parameters within the current model, the use of an eddy viscosity turbulence model with variable turbulence intensity delivered the best agreement with experimental results. Overall, the experimental study using a spherical one tank setup validated the results of the CFD model with acceptable accuracy. Sensible Heat Storage Concentrated Solar Power Thermal Energy Storage Desalination
26	Heat recovery and thermal storage : a study of the Massachusetts State Transportation Building Bjorklund, Abbe Ellen January 1986 (has links) Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Architecture; and, (M.S.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1986. / Typescript (photocopy). / Includes bibliographical references (v. 2, leaves 288-292) / A study of the energy system at the Massachusetts State Transportation Building was conducted. This innovative energy system utilizes internal-source heat pumps and a water thermal storage system to provide building heating and cooling. The potential benefits of this type of system include both energy savings and operating and equipment cost savings when compared to more conventional building heating and cooling systems. The study involved monitoring of equipment performance, computer simulation of the building energy system dynamics, and analysis of actual and modelled system efficiency. It was found that the building is presently operating as a 'low energy' building, despite a number of factors which have limited the heat pump system's capability to entirely meet winter heating requirements. Significant additional operation efficiency and cost savings are potentially available if a variety of measures are undertaken, including: stratification of the thermal storage system, utilization of demand management controls, and increased lighting system efficiency. / by Abbe Ellen Bjorklund. / M.S. Architecture. Mechanical Engineering. TH7638.B56 Heat recovery Heat storage
27	Buoyancy driven flow in porous media applied to heat storage and carbon sequestration Dudfield, Peter January 2015 (has links) No description available. 550
28	Analysis of underground thermal energy storage systems with ground water advection in subtropical regions He, Miaomiao. January 2007 (has links) Thesis (M. Phil.)--University of Hong Kong, 2007. / Title proper from title frame. Also available in printed format.
29	Analysis of underground thermal energy storage systems with ground water advection in subtropical regions / He, Miaomiao. January 2007 (has links) Thesis (M. Phil.)--University of Hong Kong, 2007. / Also available online.
30	Äldreboendet på Zakrisdal : En studie om solvärme med säsongslagring / Home for elderly at Zakrisdal : A study about solar heat with seasonal heat storage Skantz, Christoffer January 2008 (has links) <p>A home for elderly is planed to be built at Zakrisdal, Karlstad, Sweden. The heat source for the building was at the time not determined. In order by the local government of Karlstad this report is meant to examine if the need of heat could be provided only by solar heat combined with a seasonal heat storage. The problem to solve is, if the need of heat from the home for elderly is provided from only solar heat, whitch dimensions of the solar collectors and the storage is needed?</p> solar heat heat storage Solvärme säsongslagring solfångare Environmental engineering Miljöteknik

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