Global ETD Search

11	A Reduced Model of Borehole Thermal Energy Storage Thermal Response Dudalski, Jacob January 2023 (has links) In Canada 15% of greenhouse gas (GHG) emissions are produced by the residential sector’s energy demand. The majority of the energy demand is space heating which is primarily met with natural gas combustion. Motivation exists to reduce GHG emissions due to their contribution to climate change. Integrated Community Energy Harvesting (ICE-Harvest) systems seek to integrate thermal and electrical energy production, storage, redistribution, and consumption in a way that reduces GHG emissions. Borehole thermal energy storage (BTES) is implemented in ICE-Harvest systems as seasonal thermal energy storage. This thesis presents a novel model of BTES thermal response with reduced complexity to aid in early siting, design, optimization, and control systems development work for ICE-Harvest systems. The reduced model can be used to approximate periodic steady state BTES thermal response. The model provides information on average ground storage volume temperature, outlet fluid temperature, heat exchanger fluid to storage volume heat transfer rate, storage volume top loss heat transfer rate, storage volume side and bottom loss heat transfer rate, and annual thermal energy storage efficiency which aids system modelling efforts for BTES in solar thermal and ICE-Harvest systems. The reduced model is formed from a solution of the thermal energy balance equations for the BTES ground storage volume and heat exchanger fluid with simplified operating conditions for a yearly BTES charging and discharging cycle. Ground storage volume temperature is lumped as a single value. Heat transfer rates between the storage volume and the heat exchanger fluid and the storage volume and its surroundings are modelled with periodic steady state thermal resistance values for the charging and discharging timesteps. A TRNSYS DST simulation of BTES is validated against measurements from a BTES installation and TRNSYS DST is used to generate the periodic steady state thermal resistance values the reduced model requires. The periodic steady state thermal resistance values of BTES charging and discharging are dependent on BTES design parameters (spacing between boreholes, number of boreholes, borehole depth, and storage volume size) and ground thermal properties (thermal capacity and thermal conductivity) which is presented in a series of parameter sweeps with respect to a reference simulation. The reduced model predicts periodic steady state average storage volume temperature with a RMSD of 0.96°C for charging and 1.3°C for discharging when compared to the TRNSYS DST reference simulation. The reduced model predicts the periodic steady state heat exchanger total energy transfer within 1.8% for the charging timestep and 2.8% for the discharging timestep when compared to the TRNSYS DST reference simulation. The reduced model’s periodic steady state thermal resistance values are demonstrated to be independent of heat exchanger fluid inlet temperature except for the side and bottom loss thermal resistance during discharging. The reduced model cannot replicate the change in heat transfer direction that occurs during BTES discharging when the temperature of the storage volume decreases below the temperature of the surrounding ground, however, the magnitude of the energy transfer that would occur is negligible compared to the magnitude of the BTES heat exchanger total energy transfer. / Thesis / Master of Applied Science (MASc) Reduced Model BTES Borehole thermal energy storage Thermal response Storage Efficiency Thermal resistance TRNSYS validation Borehole heat exchanger
12	Improvements of U-pipe Borehole Heat Exchangers Acuña, José January 2010 (has links) <p>The sales of Ground Source Heat Pumps in Sweden and many other countries are having a rapid growth in the last decade. Today, there are approximately 360 000 systems installed in Sweden, with a growing rate of about 30 000 installations per year. The most common way to exchange heat with the bedrock in ground source heat pump applications is circulating a secondary fluid through a Borehole Heat Exchanger (BHE), a closed loop in a vertical borehole. The fluid transports the heat from the ground to a certain heating and/or cooling application. A fluid with one degree higher or lower temperature coming out from the borehole may represent a 2-3% change in the COP of a heat pump system. It is therefore of great relevance to design cost effective and easy to install borehole heat exchangers. U-pipe BHEs consisting of two equal cylindrical pipes connected together at the borehole bottom have dominated the market for several years in spite of their relatively poor thermal performance and, still, there exist many uncertainties about how to optimize them. Although more efficient BHEs have been discussed for many years, the introduction of new designs has been practically lacking. However, the interest for innovation within this field is increasing nowadays and more effective methods for injecting or extracting heat into/from the ground (better BHEs) with smaller temperature differences between the heat secondary fluid and the surrounding bedrock must be suggested for introduction into the market.</p><p>This report presents the analysis of several groundwater filled borehole heat exchangers, including standard and alternative U-pipe configurations (e.g. with spacers, grooves), as well as two coaxial designs. The study embraces measurements of borehole deviation, ground water flow, undisturbed ground temperature profile, secondary fluid and groundwater temperature variations in time, theoretical analyses with a FEM software, Distributed Thermal Response Test (DTRT), and pressure drop. Significant attention is devoted to distributed temperature measurements using optic fiber cables along the BHEs during heat extraction and heat injection from and to the ground.</p> / QC 20100517 / EFFSYS2 / Efficient Use of Energy Wells for Heat Pumps Borehole Heat Exchanger Distributed Thermal Response Test Ground Source Heat Pumps Environmental engineering Miljöteknik Earth sciences Geovetenskap Civil engineering and architecture Samhällsbyggnadsteknik och arkitektur
13	Estudo experimental da resposta térmica de fundações por estacas trocadoras de calor em solo não saturado / An experimental study of the thermal response of heat exchanger piles in unsaturated tropical soil Bandeira Neto, Luis Antonio 08 December 2015 (has links) O estudo experimental apresentado nesta dissertação foi realizado para avaliar a resposta térmica de fundações por estacas trocadoras de calor, que podem ser usadas para reduzir o elevado consumo de energia em sistemas de condicionamento de ar no Brasil. A principal motivação para a produção deste trabalho foi a ausência de estudos sobre o desempenho térmico de estacas e/ou furos trocadores de calor em solo tropical, que é muito comum em nosso país. Para esta pesquisa, cinco ensaios de resposta térmica (TRT) foram realizados no Campo Experimental de Fundações da Universidade de São Paulo em São Carlos/SP, Brasil. A camada de solo superficial deste terreno consiste de solo tropical não saturado, composto de areia argilosa coluvial (laterítico) sobre um solo residual de arenito (saprolito). O ensaio in situ denominado TRT é o método experimental mais comum para a determinação das propriedades térmicas de sistemas de fundações por estacas trocadoras de calor. Os experimentos foram realizados em duas estacas escavadas, com 12 m de profundidade, equipadas com tubos trocadores de calor, instaladas em uma camada de solo com temperatura média em torno de 24°C. O principal objetivo deste trabalho foi avaliar a performance de estacas trocadoras de calor na condição de solo e clima investigados (alta temperatura do solo, solo laterítico não saturado com alta porosidade próximo a superfície). Também foram verificados os efeitos da posição do nível d\'água, da vazão da água circulante na estaca, e da duração do ensaio nas propriedades térmicas das estacas trocadora de calor avaliadas. Os resultados encontrados da taxa de troca de calor por metro de estaca neste estudo variam 79 a 110 W/m, portanto, estas estacas mostram bom potencial de transferência de calor no local investigado. Os resultados desse estudo fornece informações úteis para a avaliação da eficiência de estacas trocadoras de calor como um sistema de refrigeração em regiões tropicais e subtropicais brasileiras. / Brazil is the fifth largest buyer of air conditioner in the world because of its tropical and subtropical climate. To address this problem, the current experimental study was carried out to evaluate the thermal response of energy piles that can be used to reduce the high energy consumption in cooling systems in Brazil. The key factor that motivates this study is that unsaturated tropical soils cover a significant part of the Brazilian territory, and the thermal performance of heat exchanger piles in typical Brazilian soil and climate has not been investigated before. Five Thermal Response tests (TRT) were conducted for this research in the Geotechnical research field of the University of São Paulo at São Carlos/SP, Brazil, of unsaturated tropical soil, including a superficial layer composed of colluvial clayey sand (lateritic) overlaying in a residual sandstone soil (saprolitic). Thermal response tests are the most common experimental method for determining thermal properties of the energy foundation systems. The tests were performed on two drilled piles of 12m length equipped with heat transfer pipes, installed a soil layer with average temperature of 24°C. The main objective of this work was to obtain some data about the thermal energy delivery of energy piles in the soil and climate condition investigated herein (high ground temperature, unsaturated and tropical soil with high porosity). The effects of ground water table, flow rate, duration of test, and number of heat exchanger U-pipes on the thermal properties of the energy pile were also evaluated in this study. The thermal parameters obtained allowed a first evaluation about the thermal efficiency of the piles in the particular soil. The results of heat exchange rate found in this study vary from 79 to 110 W/m, therefore energy piles installed in the investigated site show good heat transfer potential. This study provides interesting information to the evaluation of heat exchange efficiency in energy foundations to be used as a cooling system in tropical and subtropical Brazilian regions. Clima subtropical Energia geotérmica Ensaio de resposta térmica Geothermal energy Heat exchanger piles Solo não saturado Subtropical climate Thermal response test Unsaturated soil
14	Non-Dimensional Modeling of the Effects of Weld Parameters on Peak Temperature and Cooling Rate in Friction Stir Welding Stringham, Bryan Jay 01 April 2017 (has links) Methods for predicting weld properties based on welding parameters are needed in friction stir welding (FSW). FSW is a joining process in which the resulting properties depend on the thermal cycle of the weld. Buckingham's Pi theorem and heat transfer analysis was used to identify dimensionless parameters relevant to the FSW process. Experimental data from Al 7075 and HSLA-65 on five different backing plate materials and a wide range of travel speeds and weld powers was used to create a dimensionless, empirical model relating critical weld parameters to the peak temperature rise and cooling rate of the weld. The models created have R-squared values greater than 0.99 for both dimensionless peak temperature rise and cooling rate correlations. The model can be used to identify weld parameters needed to produce a desired peak temperature rise or cooling rate. The model can also be used to explore the relative effects of welding parameters on the weld thermal response. Friction Stir Welding Dimensional Analysis Non-dimensionalization Thermal Response Modeling Peak Temperature Cooling Rate Rosenthal equation Experimental Data Mechanical Engineering
15	Estudo experimental da resposta térmica de fundações por estacas trocadoras de calor em solo não saturado / An experimental study of the thermal response of heat exchanger piles in unsaturated tropical soil Luis Antonio Bandeira Neto 08 December 2015 (has links) O estudo experimental apresentado nesta dissertação foi realizado para avaliar a resposta térmica de fundações por estacas trocadoras de calor, que podem ser usadas para reduzir o elevado consumo de energia em sistemas de condicionamento de ar no Brasil. A principal motivação para a produção deste trabalho foi a ausência de estudos sobre o desempenho térmico de estacas e/ou furos trocadores de calor em solo tropical, que é muito comum em nosso país. Para esta pesquisa, cinco ensaios de resposta térmica (TRT) foram realizados no Campo Experimental de Fundações da Universidade de São Paulo em São Carlos/SP, Brasil. A camada de solo superficial deste terreno consiste de solo tropical não saturado, composto de areia argilosa coluvial (laterítico) sobre um solo residual de arenito (saprolito). O ensaio in situ denominado TRT é o método experimental mais comum para a determinação das propriedades térmicas de sistemas de fundações por estacas trocadoras de calor. Os experimentos foram realizados em duas estacas escavadas, com 12 m de profundidade, equipadas com tubos trocadores de calor, instaladas em uma camada de solo com temperatura média em torno de 24°C. O principal objetivo deste trabalho foi avaliar a performance de estacas trocadoras de calor na condição de solo e clima investigados (alta temperatura do solo, solo laterítico não saturado com alta porosidade próximo a superfície). Também foram verificados os efeitos da posição do nível d\'água, da vazão da água circulante na estaca, e da duração do ensaio nas propriedades térmicas das estacas trocadora de calor avaliadas. Os resultados encontrados da taxa de troca de calor por metro de estaca neste estudo variam 79 a 110 W/m, portanto, estas estacas mostram bom potencial de transferência de calor no local investigado. Os resultados desse estudo fornece informações úteis para a avaliação da eficiência de estacas trocadoras de calor como um sistema de refrigeração em regiões tropicais e subtropicais brasileiras. / Brazil is the fifth largest buyer of air conditioner in the world because of its tropical and subtropical climate. To address this problem, the current experimental study was carried out to evaluate the thermal response of energy piles that can be used to reduce the high energy consumption in cooling systems in Brazil. The key factor that motivates this study is that unsaturated tropical soils cover a significant part of the Brazilian territory, and the thermal performance of heat exchanger piles in typical Brazilian soil and climate has not been investigated before. Five Thermal Response tests (TRT) were conducted for this research in the Geotechnical research field of the University of São Paulo at São Carlos/SP, Brazil, of unsaturated tropical soil, including a superficial layer composed of colluvial clayey sand (lateritic) overlaying in a residual sandstone soil (saprolitic). Thermal response tests are the most common experimental method for determining thermal properties of the energy foundation systems. The tests were performed on two drilled piles of 12m length equipped with heat transfer pipes, installed a soil layer with average temperature of 24°C. The main objective of this work was to obtain some data about the thermal energy delivery of energy piles in the soil and climate condition investigated herein (high ground temperature, unsaturated and tropical soil with high porosity). The effects of ground water table, flow rate, duration of test, and number of heat exchanger U-pipes on the thermal properties of the energy pile were also evaluated in this study. The thermal parameters obtained allowed a first evaluation about the thermal efficiency of the piles in the particular soil. The results of heat exchange rate found in this study vary from 79 to 110 W/m, therefore energy piles installed in the investigated site show good heat transfer potential. This study provides interesting information to the evaluation of heat exchange efficiency in energy foundations to be used as a cooling system in tropical and subtropical Brazilian regions. Clima subtropical Energia geotérmica Ensaio de resposta térmica Solo não saturado Geothermal energy Heat exchanger piles Subtropical climate Thermal response test Unsaturated soil
16	Improvements of U-pipe Borehole Heat Exchangers Acuña, José January 2010 (has links) The sales of Ground Source Heat Pumps in Sweden and many other countries are having a rapid growth in the last decade. Today, there are approximately 360 000 systems installed in Sweden, with a growing rate of about 30 000 installations per year. The most common way to exchange heat with the bedrock in ground source heat pump applications is circulating a secondary fluid through a Borehole Heat Exchanger (BHE), a closed loop in a vertical borehole. The fluid transports the heat from the ground to a certain heating and/or cooling application. A fluid with one degree higher or lower temperature coming out from the borehole may represent a 2-3% change in the COP of a heat pump system. It is therefore of great relevance to design cost effective and easy to install borehole heat exchangers. U-pipe BHEs consisting of two equal cylindrical pipes connected together at the borehole bottom have dominated the market for several years in spite of their relatively poor thermal performance and, still, there exist many uncertainties about how to optimize them. Although more efficient BHEs have been discussed for many years, the introduction of new designs has been practically lacking. However, the interest for innovation within this field is increasing nowadays and more effective methods for injecting or extracting heat into/from the ground (better BHEs) with smaller temperature differences between the heat secondary fluid and the surrounding bedrock must be suggested for introduction into the market. This report presents the analysis of several groundwater filled borehole heat exchangers, including standard and alternative U-pipe configurations (e.g. with spacers, grooves), as well as two coaxial designs. The study embraces measurements of borehole deviation, ground water flow, undisturbed ground temperature profile, secondary fluid and groundwater temperature variations in time, theoretical analyses with a FEM software, Distributed Thermal Response Test (DTRT), and pressure drop. Significant attention is devoted to distributed temperature measurements using optic fiber cables along the BHEs during heat extraction and heat injection from and to the ground. / <p>QC 20100517</p> / EFFSYS2 / Efficient Use of Energy Wells for Heat Pumps Borehole Heat Exchanger Distributed Thermal Response Test Ground Source Heat Pumps Other Environmental Engineering Annan naturresursteknik Earth and Related Environmental Sciences Geovetenskap och miljövetenskap Civil Engineering Samhällsbyggnadsteknik
17	Temperature-Compensated Force/Pressure Sensor Based on Multi-Walled Carbon Nanotube Epoxy Composites Dinh, Nghia Trong, Kanoun, Olfa 10 November 2015 (has links) (PDF) In this study, we propose a multi-walled carbon nanotube epoxy composite sensor for force and pressure sensing in the range of 50 N–2 kN. A manufacturing procedure, including material preparation and deposition techniques, is proposed. The electrode dimensions and the layer thickness were optimized by the finite element method. Temperature compensation is realized by four nanocomposites elements, where only two elements are exposed to the measurand. In order to investigate the influence of the filler contents, samples with different compositions were prepared and investigated. Additionally, the specimens are characterized by cyclical and stepped force/pressure loads or at defined temperatures. The results show that the choice of the filler content should meet a compromise between sensitivity, temperature influence and noise behavior. At constant temperature, a force of at least 50N can be resolved. The measurement error due to the temperature influence is 150N in a temperature range of –20°C–50°C. Kohlenstoffnanoröhren Epoxid Technische Universität Chemnitz Publikationsfonds Technische Universität Chemnitz Publication funds Nanocomposite Temperature compensation ddc:600 Verbundwerkstoff Sensor
18	Écologie saisonnière des parasitoïdes des oeufs de l'arpenteuse de la pruche Legault, Simon 12 1900 (has links) Cette étude porte sur l’écologie saisonnière des parasitoïdes des œufs de l’arpenteuse de la pruche (Lepidoptera : Geometridae), un important défoliateur du Québec (Canada). Premièrement, nous décrivons les patrons saisonniers de parasitisme d’hôtes sentinelles par Telenomus coloradensis, T. droozi, T. flavotibiae (Hymenoptera : Scelionidae), et Trichogramma spp., dans la région du Bas-Saint-Laurent. Telenomus flavotibiae et Trichogramma spp. parasitent rarement les œufs de l’arpenteuse de la pruche alors que T. coloradensis et T. droozi sont très abondants au printemps. En laboratoire, la convenance des hôtes pour T. coloradensis diminue rapidement avec leur développement embryonnaire au printemps, affectant négativement les niveaux de parasitisme, ainsi que la survie, la taille, le temps de développement et la longévité de la progéniture. Telenomus coloradensis et T. droozi sont actifs très tôt en saison, alors que les températures sont froides (4°C) pour profiter du développement embryonnaire peu avancé de l’hôte. À partir de paramètres empiriques, nous estimons que la progéniture de T. coloradensis issue du parasitisme printanier émerge au milieu de l’été, alors que l’hôte est totalement absent de l’environnement forestier. La nouvelle génération de femelles serait donc susceptible d’entrer précocement en diapause reproductive. D’ailleurs, nos résultats de laboratoire démontrent qu’une période de privation d’hôtes affecte négativement l’activité parasitaire de T. coloradensis. Ce phénomène pourrait expliquer les niveaux très faibles de parasitisme des œufs de l’arpenteuse de la pruche à l’automne. Étonnamment toutefois, les hôtes en début de diapause (à l’automne) sont de meilleure qualité énergétique que les hôtes en post-diapause (au printemps). Alors que des études précédentes ont démontré que T. coloradensis peut survivre à l’hiver en tant qu’immature à l’intérieur des hôtes, nos résultats indiquent que ce sont principalement les femelles fertilisés qui passent l’hiver en diapause reproductive, avec un point de surfusion automnal moyen de -30,6°C. / This study focuses on the seasonal ecology of egg parasitoids of the hemlock looper (Lepidoptera: Geometridae), a major forest defoliator in the province of Quebec (Canada). At first, we describe the seasonal occurrence of parasitism in sentinel hosts by Telenomus coloradensis, T. droozi, T. flavotibiae (Hymenoptera: Scelionidae) and Trichogramma spp., in the Lower St.Lawrence region. Telenomus flavotibiae and Trichogramma spp. rarely parasitize eggs of the hemlock looper, while T. coloradensis and T. droozi are very abundant in spring. In the laboratory, the host suitability for T. coloradensis decreases rapidly with their embryonic development in spring, affecting negatively the levels of parasitism, as well as the survival, size, development time and longevity of offspring. Accordingly, female T. coloradensis and T. droozi are active very early in season, when temperature is cold (4° C), presumably to benefit from low embryonic development of the host. From developmental parameters measured in the laboratory, we estimate that the spring progeny of T. coloradensis emerges in mid-summer, when eggs of the hemlock looper are totally absent from the forest environment. The new generation of female parasitoids is thus expected to enter in a early reproductive diapause : our laboratory results show that an extended host deprivation period negatively affects parasitism by T. coloradensis. This may contribute to explain the very low levels of parasitism of hemlock looper eggs in fall. Our laboratory tests also show that unfertilized eggs in the fall do not allow the development of T. coloradensis. Surprisingly, however, host eggs in early-diapause (in autumn) are energically more suitable than hosts in post-diapause (in spring). While previous studies have shown that T. coloradensis may overwinter as immature eggs inside the host, our field and laboratory results indicate that it is mainly the fertilized females of this species that overwinter in reproductive diapause, with a supercooling point of -30.6 °C in fall. Écologie saisonnière arpenteuse de la pruche Telenomus contrôle naturel réponse thermique qualité de l'hôte disponibilité de l'hôte biologie hivernale Seasonal ecology hemlock looper natural control thermal response host quality host availability winter biology
19	Écologie saisonnière des parasitoïdes des oeufs de l'arpenteuse de la pruche Legault, Simon 12 1900 (has links) Cette étude porte sur l’écologie saisonnière des parasitoïdes des œufs de l’arpenteuse de la pruche (Lepidoptera : Geometridae), un important défoliateur du Québec (Canada). Premièrement, nous décrivons les patrons saisonniers de parasitisme d’hôtes sentinelles par Telenomus coloradensis, T. droozi, T. flavotibiae (Hymenoptera : Scelionidae), et Trichogramma spp., dans la région du Bas-Saint-Laurent. Telenomus flavotibiae et Trichogramma spp. parasitent rarement les œufs de l’arpenteuse de la pruche alors que T. coloradensis et T. droozi sont très abondants au printemps. En laboratoire, la convenance des hôtes pour T. coloradensis diminue rapidement avec leur développement embryonnaire au printemps, affectant négativement les niveaux de parasitisme, ainsi que la survie, la taille, le temps de développement et la longévité de la progéniture. Telenomus coloradensis et T. droozi sont actifs très tôt en saison, alors que les températures sont froides (4°C) pour profiter du développement embryonnaire peu avancé de l’hôte. À partir de paramètres empiriques, nous estimons que la progéniture de T. coloradensis issue du parasitisme printanier émerge au milieu de l’été, alors que l’hôte est totalement absent de l’environnement forestier. La nouvelle génération de femelles serait donc susceptible d’entrer précocement en diapause reproductive. D’ailleurs, nos résultats de laboratoire démontrent qu’une période de privation d’hôtes affecte négativement l’activité parasitaire de T. coloradensis. Ce phénomène pourrait expliquer les niveaux très faibles de parasitisme des œufs de l’arpenteuse de la pruche à l’automne. Étonnamment toutefois, les hôtes en début de diapause (à l’automne) sont de meilleure qualité énergétique que les hôtes en post-diapause (au printemps). Alors que des études précédentes ont démontré que T. coloradensis peut survivre à l’hiver en tant qu’immature à l’intérieur des hôtes, nos résultats indiquent que ce sont principalement les femelles fertilisés qui passent l’hiver en diapause reproductive, avec un point de surfusion automnal moyen de -30,6°C. / This study focuses on the seasonal ecology of egg parasitoids of the hemlock looper (Lepidoptera: Geometridae), a major forest defoliator in the province of Quebec (Canada). At first, we describe the seasonal occurrence of parasitism in sentinel hosts by Telenomus coloradensis, T. droozi, T. flavotibiae (Hymenoptera: Scelionidae) and Trichogramma spp., in the Lower St.Lawrence region. Telenomus flavotibiae and Trichogramma spp. rarely parasitize eggs of the hemlock looper, while T. coloradensis and T. droozi are very abundant in spring. In the laboratory, the host suitability for T. coloradensis decreases rapidly with their embryonic development in spring, affecting negatively the levels of parasitism, as well as the survival, size, development time and longevity of offspring. Accordingly, female T. coloradensis and T. droozi are active very early in season, when temperature is cold (4° C), presumably to benefit from low embryonic development of the host. From developmental parameters measured in the laboratory, we estimate that the spring progeny of T. coloradensis emerges in mid-summer, when eggs of the hemlock looper are totally absent from the forest environment. The new generation of female parasitoids is thus expected to enter in a early reproductive diapause : our laboratory results show that an extended host deprivation period negatively affects parasitism by T. coloradensis. This may contribute to explain the very low levels of parasitism of hemlock looper eggs in fall. Our laboratory tests also show that unfertilized eggs in the fall do not allow the development of T. coloradensis. Surprisingly, however, host eggs in early-diapause (in autumn) are energically more suitable than hosts in post-diapause (in spring). While previous studies have shown that T. coloradensis may overwinter as immature eggs inside the host, our field and laboratory results indicate that it is mainly the fertilized females of this species that overwinter in reproductive diapause, with a supercooling point of -30.6 °C in fall. Écologie saisonnière arpenteuse de la pruche Telenomus contrôle naturel réponse thermique qualité de l'hôte disponibilité de l'hôte biologie hivernale Seasonal ecology hemlock looper natural control thermal response host quality host availability winter biology
20	Performance analysis of a large-scale ground source heat pump system Naicker, Selvaraj Soosaiappa January 2015 (has links) The UK government’s Carbon Plan-2011 aims for 80% carbon emission reduction by 2050, and the 2009 UK National Renewable Energy Action Plan has set a target of delivering 15% of total energy demand by renewable energy sources by 2020. Ground Source Heat Pump (GSHP) systems can play a critical role in reaching these goals within the building sector. Achieving such benefits relies on proper design, integration, installation, commissioning, and operation of these systems. This work seeks to provide evidence to improve the practices in design, installation and operations of large GSHP systems. This evidence has been based on collection and analysis of data from an operational large-scale GSHP system providing heating and cooling to a university building. The data set is of significance in that it is collected from a large-scale system incorporating fifty-six borehole heat exchangers and four heat pumps. The data has been collected at high frequency since the start of operation and for a period of three years. The borehole heat exchanger data is intended to form a reference data set for use by other workers in model validation studies. The ground thermal properties at the site have been estimated using a novel combination of numerical model and parameter estimation methods. The utility of the reference data set has been demonstrated through application in a validation study of a numerical borehole heat exchanger model. The system heat balances and power consumption data have firstly been analysed to derive a range of performance metrics such as Seasonal Performance Factors. Analysis has been carried out at the system and individual heat pump level. Annual performance has been found satisfactory overall. A series of analyses have been carried out to investigate the roles of circulating pump energy, control system operation and dynamic behaviour. Monitoring data from one of the heat pumps has also been analysed in further detail to make comparisons with manufacturer’s steady-state performance data and with consideration to variations in fluid properties. Some modest degradation from stated performance has been identified. The most significant operational factors accounting for degradation of overall system performance have been excessive pump energy demands and short cycling behaviour. Some faults in operation of the system during the monitoring period have also been identified. A series of recommendations are made as to ways to improve the design and operation of large-scale GSHP systems based on this evidence. These recommendations are chiefly concerned with better design for part-load operation, reduction in pump energy demands and more robust control systems. 697

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