Beitrag zur thermodynamischen Analyse und Bewertung von Wasserwärmespeichern in Energieumwandlungsketten

Huhn, Robert

28 March 2007

Wärmespeicher tragen bei optimierter Integration in Wärme- und Kälteversorgungsanlagen zur Einsparung von installierter Erzeugerleistung, Brennstoffeinsatz und Betriebskosten bei. Leider treten in Wärmespeichern oft noch beachtliche Verluste auf und das Potenzial zur Kosten- und Energieeinsparung wird nicht vollständig ausgeschöpft. Dabei spielen nicht nur Wärmeverluste an die Umgebung, sondern vor allem auch innere Verluste im Speicher eine Rolle. Schwerpunkte der vorliegenden Arbeit sind die Beschreibung der einzelnen Verluste an Wasserwärmespeichern, die Ermittlung ihrer Ausmaße abhängig von der konstruktiven Gestaltung und der Betriebsweise des Speichers sowie die Auswirkungen der Verluste auf einen vorgelagerten Wärmeerzeuger und den Einsatz von Primärenergie. Die Ergebnisse basieren auf umfangreichen Speichermodellierungen mit dem CFD-Code Fluent sowie experimentellen Untersuchungen an drei Testspeichern. Der quantitative Vergleich der Verluste für ausgewählte Beispiele zeigt bestehende Defizite sowie die Potenziale für die Verbesserung der Konstruktion neuer Wasserwärmespeicher auf. / If hot water storage tanks are optimally integrated in heat or cold supply systems, they contribute to a reduction of required capacity, fuel and operation costs. Unfortunately, even today remarkable heat losses and internal losses occur in hot water storage tanks. The potential for cost and energy reductions is not completely utilized yet. Here, not only heat losses to the ambience, but also internal losses play a decisive role. Main focus of the presented work is the description of the single losses at hot water storage tanks and the determination of the correlation between the losses, the tank design and the mode of operation. Furthermore the effects of the losses in the tank on the efficiency of different types of heat generators and the input of primary energy into the system have been examined. The results are based on extended numerical modeling with the CFD-code Fluent as well as experimental test with three storage tanks. The quantitative comparison of the losses for selected examples shows the current shortcomings but even the potential for an optimized hot water storage tank design.

info:eu-repo/classification/ddc/620

ddc:620

The Occurrence of Thermal Groundwater in the Basin and Range Province of Arizona

Wright, Jerome J.

23 April 1971

From the Proceedings of the 1971 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - April 22-23, 1971, Tempe, Arizona / The distribution of groundwater having temperature considered to be higher than normal is examined on a regional basis. Much of the work was done by searching the literature and examining USGS records. The geographic distribution of the thermal waters is reviewed; relation to structure, geothermal gradients and water quality are discussed. Current and past utilization of thermal water from both springs and wells of the state has never been very extensive. Conclusions were: (1) the occurrence of thermal water in the state is closely allied to major structural elements, especially major fault zones; (2) geothermal gradients vary widely from place to place; (3) the extent of 'bedrock' influence on thermal water occurrence is difficult to ascertain; (4) most thermal water in southern Arizona is derived from meteoric water.

Water resources development -- Arizona.

Hydrology -- Arizona.

Hydrology -- Southwestern states.

Geothermal studies

Thermal water

Arizona

Distribution patterns

Arid lands

Hydrogeology

Geomorphology

Thermal stratification

Bedrock

Faults (geology)

Meteoric water

Geothermal gradients

Προσομοίωση τυρβωδών ροών φυσικής και μικτής συναγωγής σε ηλιακά και ενεργειακά συστήματα

Καλούδης, Ευστάθιος

13 January 2015

Αντικείμενο της διατριβής είναι η προσομοίωση της ροής και της μεταφοράς θερμότητας σε ηλιακά και ενεργειακά συστήματα. Η έμφαση δόθηκε στις δεξαμενές αποθήκευσης της θερμότητας που παράγεται στα συγκεκριμένα συστήματα, με στόχο τον χαρακτηρισμό των ενεργειακών απωλειών και την βελτιστοποίηση του σχεδιασμού τους. Κύριες δραστηριότητες της διατριβής θα είναι η περαιτέρω ανάπτυξη διαθέσιμων εργαλείων προσομοίωσης ροών φυσικής και μικτής συναγωγής, με διερεύνηση των νεώτερων εξελίξεων στην μοντελοποίηση με τη μέθοδο Προσομοίωσης Μεγάλων Δινών (LES). Αρχικά γίνεται εκτεταμένη επικύρωση με πειραματικά αποτελέσματα σε απλές γεωμετρικές διατάξεις (π.χ. ορθογωνικά κανάλια ή κοιλώματα με βαθμίδα θερμοκρασίας) από την βιβλιογραφία. Στη συνέχεια η μεθοδολογία εφαρμόζεται στον υπολογισμό ροών σε πιο ρεαλιστικές γεωμετρίες, επιλεγμένες από πρακτικές εφαρμογές, όπως οι δεξαμενές αποθήκευσης νερού. Αναλύονται σε βάθος οι δυναμικές διεργασίες και τα ροϊκά φαινόμενα τόσο κατά την προσαγωγή της θερμότητας στη δεξαμενή (φόρτιση) όσο και κατά την απαγωγή της (εκφόρτιση) και η επίδραση που έχουν αυτά στην αποδοτικότητα της αποθήκευσης με βάση κατάλληλους ποσοτικούς δείκτες. Από τα αποτελέσματα αναδεικνύεται η σημασία της μοντελοποίησης σε τέτοιου είδους συστήματα ως ένα σημαντικό εργαλείο στη διερεύνηση της απόδοσης τους, του ενεργειακού χαρακτηρισμού τους και ακολούθως στην προσπάθεια επίτευξης του βέλτιστου σχεδιασμού τους. / The subject of the thesis is the Simulation of Turbulent Flow and Heat Transfer in Solar and Energy Systems. Emphasis is given in the thermal storage component of these systems, with the aim of characterizing their energy losses and improve their design. Main activities of the thesis will be the further development of available computational tools for the simulation of flows in natural and mixed convection, incorporating some of the most recent developments in modeling, particularly in the Large Eddy Simulation (LES) method. Initially, an extensive validation with experimental results in simple geometric configurations is carried out (e.g. channels or differentially heated cavities). Subsequently, the methodology is applied in the calculation of flows for more realistic geometries selected from practical applications, such as various hot water storage tanks. Analysis is conducted of the dynamic processes and relevant physical phenomena during the heat supply (charging) to and removal (discharging) from the tank and their influence on the storage effectiveness using appropriate thermodynamic indices. From the simulation results, the significance of the flow and heat transfer modeling in these systems as a practical tool for studying their performance is demonstrated, by characterizing their energy content and significantly contributing to the process of optimizing their design.

Μεικτή συναγωγή

Ανάπτυξη θερμοκλίνης

Βαρυτικά ρεύματα

621.402 2

Mixed convection

Large eddy simulation

Sensible thermal storage

Thermocline development

Thermal stratification

Gravity currents

Estudo de um coletor solar, tipo tubo evacuado modificado, utilizando um concentrador cilíndrico parabólico (CPC) / Study of a modified evacuated tube solar collector using a compound parabolic concentrator (cpc)

Avallone, Elson [UNESP]

30 October 2017

Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-09T20:50:22Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-22T14:07:00Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-22T18:09:14Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-22T18:12:24Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-22T19:44:22Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-23T11:57:14Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-23T12:57:55Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-23T13:16:31Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-23T13:34:44Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-23T17:24:55Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-23T17:29:01Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-24T12:05:24Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-24T12:39:44Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-24T16:47:38Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-24T17:31:22Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-27T11:40:50Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-27T12:31:52Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Submitted by ELSON AVALLONE null (elson.avallone@yahoo.com.br) on 2017-11-27T13:03:15Z No. of bitstreams: 1 VERSÃO FINAL.pdf: 8939449 bytes, checksum: d3102d236ab9125097867c5c875ded25 (MD5) / Approved for entry into archive by Maria Marlene Zaniboni null (zaniboni@bauru.unesp.br) on 2017-11-27T13:29:57Z (GMT) No. of bitstreams: 1 avallone_e_te_bauru_par.pdf: 1740865 bytes, checksum: 52bbabae7939012196c7f0891f214b58 (MD5) / Made available in DSpace on 2017-11-27T13:29:57Z (GMT). No. of bitstreams: 1 avallone_e_te_bauru_par.pdf: 1740865 bytes, checksum: 52bbabae7939012196c7f0891f214b58 (MD5) Previous issue date: 2017-10-30 / As alterações climáticas tem fomentado a busca por fontes renováveis de energia. Assim, novos coletores solares têm sido o foco de pesquisadores em todo o mundo para novos concentradores, novas configurações de instalação e o estudo da estratificação térmica para melhorar o desempenho do sistema de armazenamento térmico. O sistema proposto, ou seja, utilizando concentrador solar com tubo evacuado, proporciona linearidade e constância na sua eficiência em relação aos coletores de placas planas. A alteração proposta, ou seja, tubo com duas aberturas, uma para entrada do líquido frio e outra para saída do líquido aquecido, elimina a interface física entre a água quente na região voltada para o fluxo de calor solar e a água fria na região inferior do tubo. Essa alteração provoca redução na eficiência térmica, porém aumenta o volume de água aquecida por dia. O concentrador CPC mostrou-se um importante equipamento do sistema, uma vez que a os raios solares incidem em uma região longitudinal definida no tubo coletor solar, direcionado pela geometria do CPC. Com a utilização desse equipamento elimina-se a necessidade de espelhos com seguidores solares, tornando o sistema vulnerável a oscilações elétricas, encarecendo o projeto e consumindo energia elétrica. O desempenho do coletor é avaliado a partir de testes experimentais utilizando a Primeira Lei da Termodinâmica como análise da eficiência. Esses resultados são comparados aos conceitos teóricos descritos na literatura científica. O espaço anular evacuado do tubo também se mostrou um importante aliado na linearidade do coletor, reduzindo a resistência térmica do ar. A estratificação térmica é avaliada tanto pelo número de MIX (Primeira Lei da Termodinâmica) como pela proposta de um novo coeficiente de estratificação utilizando a exergia (Segunda Lei da Termodinâmica). Das seis configurações propostas para o sistema estudado, a mais viável foi obtida na configuração 3, ou seja, tubo evacuado com CPC. / Climate change has encouraged the search for renewable energy sources. Thus, new solar collectors have been the focus of researchers around the world with new hubs, new installation settings and the study of thermal stratification to improve the performance of the thermal storage system. The proposed system, ie using evacuated tube solar concentrator provides linearity and stability of efficiency compared to flat plate collectors. The proposed change, i.e. a tube with two openings, one for cold liquid inlet and the other for hot liquid outlet, eliminates the physical interface between the hot water in the region facing the solar heat flow and the cold water in the lower region of the tube. This change causes a reduction in thermal efficiency, however increases the volume of water heated per day. Two radiometers were also developed, one thermal and the other optical, and the thermal radiometer was chosen because it had a similar behavior to the solar collectors, thus reducing the cost of the experimental bench. The CPC concentrator proved to be important equipment, once the concentration of sunlight focus on a longitudinal region defined in the solar collector tube, directed by the CPC geometry. Using this equipment eliminates the need for mirrors with solar trackers, making the system vulnerable to electrical oscillations, making the project more expensive and consuming electricity. The collector performance is evaluated from experimental tests using the First Law of Thermodynamics as an efficiency analysis. These results are compared to the theoretical concepts described in the scientific literature. The annular evacuated space in the tube also proved to be an important ally in the linearity of the collector, reducing the thermal resistance of the air. Thermal stratification is evaluated both by the MIX number (First Law of Thermodynamics) and by the proposal of a new stratification coefficient using exergy (Second Law of Thermodynamics). Of the six configurations proposed the most efficient was obtained in the complete configuration, i.e. evacuated tube with CPC.

Energia solar

Coletores solares

Tubo evacuado

Análise exergética

Eficiência térmica

Concentrador CPC

Estratificação térmica

Sistema Arduino

Solar Energy

Evacuated Tube

Thermal Performance

CPC concentrator

Thermal stratification

Exergetic analisys

Arduino System

STUDY OF THE THERMAL STRATIFICATION IN PWR REACTORS AND THE PTS (PRESSURIZED THERMAL SHOCK) PHENOMENON

Romero Hamers, Adolfo

20 March 2014

In the event of hypothetical accident scenarios in PWR, emergency strategies have to be mapped out, in order to guarantee the reliable removal of decay heat from the reactor core, also in case of component breakdown. One essential passive heat removal mechanism is the reflux condensation cooling mode. This mode can appear for instance during a small break loss-of-coolant-accident (LOCA) or because of loss of residual heat removal (RHR) system during mid loop operation at plant outage after the reactor shutdown. In the scenario of a loss-of-coolant-accident (LOCA), which is caused by the leakage at any location in the primary circuit, it is considered that the reactor will be depressurized and vaporization will take place, thereby creating steam in the PWR primary side. Should this lead to ¿reflux condensation¿, which may be a favorable event progression, the generated steam will flow to the steam generator through the hot leg. This steam will condense in the steam generator and the condensate will flow back through the hot leg to the reactor, resulting in counter-current steam/water flow. In some scenarios, the success of core cooling depends on the behaviour of this counter-current flow. Over several decades, a number of experimental and theoretical studies of counter-current gas¿liquid two-phase flow have been carried out to understand the fundamental aspect of the flooding mechanism and to prove practical knowledge for the safety design of nuclear reactors. Starting from the pioneering paper of Wallis (1961), extensive CCFL data have been accumulated from experimental studies dealing with a diverse array of conditions A one-dimensional two field model was developed in order to predict the counter-current steam and liquid flow that results under certain conditions in the cold leg of a PWR when a SBLOCA (small break loss of coolant accident) in the hot leg is produced. The counter-current model that has been developed can predict the pressure, temperature, velocity profiles for both phases, also by taking into account the HPI injection system in the cold leg under a counter-current flow scenario in the cold leg. This computer code predicts this scenario by solving the mass, momentum and energy conservation equations for the liquid and for the steam separately, and linking them by using the interfacial and at the steam wall condensation and heat transfer, and the interfacial friction as the closure relations. The convective terms which appear in the discretization of the mass and energy conservation equations, were evaluated using the ULTIMATE-SOU (second order upwinding) method. For the momentum equation convective terms the ULTIMATE-QUICKEST method was used. The steam-water counter-current developed code has been validated using some experimental data extracted from some previously published articles about the direct condensation phenomenon for stratified two-phase flow and experimental data from the LAOKOON experimental facility at the Technical University of Munich. / Romero Hamers, A. (2014). STUDY OF THE THERMAL STRATIFICATION IN PWR REACTORS AND THE PTS (PRESSURIZED THERMAL SHOCK) PHENOMENON [Tesis doctoral]. Editorial Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/36536 / Alfresco

Thermal stratification

Flooding

Counter-current flow

Co-current-flow

Counter-current flow limitation

Zero penetration point

Pressurized thermal shock

LOCA (loss of coolant accident)

High pressure injection

Direct contact condensation

Interfacial heat transfer

Interfacial condensation

Interfacial friction.

INGENIERIA NUCLEAR

Varved lake sediment used to assess anthropogenic and environmental change in Summit Lake, Akron, Ohio

Rego, Melissa

26 June 2022

No description available.

Biogeochemistry

Environmental Geology

Environmental Science

Geochemistry

Geology

Hydrology

Limnology

Sedimentary Geology

Varved Sediment

Whitings

Calcite Precipitation

Urban Lake Hydrology

Heavy Metal Pollution

Recreational Opportunity

Harmful Algal Blooms

Summit Lake

Dimitic Lake

Thermal Stratification

Anoxic Hypolimnion

Eutrophic Lake

Mechanisms Causing Ferric Staining in the Secondary Water System of Brigham City, Utah

Wallace, Robert Derring

26 May 2007

Water from Mantua reservoir has, during some years, exhibited reddish-brown staining when used by Brigham City for irrigation. I propose that seasonal fluctuations in the reservoir chemistry create an environment conducive to dissolving iron from the iron-rich sediments, which subsequently precipitate during irrigation, resulting in a staining event. These conditions are produced by chemical and biological decomposition of organic matter, coupled with isolation of the hypolimnetic waters, which results in seasonal low concentrations of dissolved oxygen in these waters. Under these specific circumstances, anaerobic conditions develop creating a geochemical environment that causes iron and manganese reduction from Fe(III) to Fe(II) and Mn(IV) to Mn(II), respectively. These reducing conditions facilitate reduction-oxidation (redox) chemical reactions that convert insoluble forms of iron and manganese found in the reservoir sediments into more soluble forms. Consequently, relatively high amounts of dissolved iron and manganese are generated in the bottom waters immediately adjacent to the benthic sediments of the reservoir. Water withdrawn from a bottom intake pipe during these periods introduces iron-rich water into the distribution system. When this water is exposed to oxygen, reoxidation shifts redox equilibrium causing precipitation of soluble Fe(II) and Mn(III) back to highly insoluble Fe(III) and Mn(IV). The precipitant appears on contact surfaces as the aforementioned ferric stain. This research focuses specifically on the iron chemistry involved and evaluates this hypothesis using various measurements and models including field data collection, computer simulations, and bench-scale testing to validate the processes proposed.

anaerobic

hypolimnion

epilimnion

stratification

iron-staining

reddish-brown staining

hypereutrophic

mesolimnion

dissolved oxygen

benchscale models

iron reduction

manganese

redox potential

Mantua Reservoir

dissolved iron

precipitate

reoxidation

aerobic

PHREEQC

benthic sediments

seasonal fluctuations

iron-rich sediments

calibration curve

spectrophotometer

ICP

Beer's Law

EPA Methods

thermal stratification

Civil and Environmental Engineering

Radiale Diffusoren in Warmwasserspeichern: Einfluss des Beladesystems auf Strömungsverhalten und Schichtungsqualität

Findeisen, Fabian

19 April 2018

Radiale Diffusoren beeinflussen signifikant die Qualität der thermischen Schichtung in Warmwasserspeichern. Um die Effizienz der Energiespeicherung zu verbessern, ist das Verständnis des komplexen Strömungsverhaltens notwendig. Diese Arbeit liefert Grundlagen zur Beschreibung der auftretenden Effekte und stellt ein geeignetes CFD-Simulationsmodell vor. Als Untersuchungsobjekt dient eine neuartige Speicherkonstruktion, wobei der Radialdiffusor direkt an einer schwimmenden Decke montiert ist. Vorteile dieser Anordnung werden aufgezeigt, die auftretenden Strömungseffekte beschrieben sowie der Einfluss verschiedener Beladergeometrien auf die thermische Schichtung untersucht. Für das Entladen bis 98 °C bei Atmosphärendruck wurde ein strömungsoptimierter Freiformdiffusor entwickelt, um Kavitation beim Ansaugen zu vermeiden. Die Untersuchungen zeigen außerdem, dass bei der Beladung über dem Umfang des Radialdiffusors ein stark asymmetrisches und einseitig gerichtetes Ausströmen auftreten kann. Gegenmaßnahmen in Form von Leit- und Lochblechen stellen ein nahezu symmetrisches Ausströmen wieder her und verbessern damit die Schichtungsqualität. Neben umfangreichen numerischen Studien mit RANS und LES fanden zahlreiche Experimente im Labor und an einem 100 m³-Speicher statt. / Radial diffusers have a significant influence on the quality of thermal stratification in hot water storage tanks. In order to improve the efficiency of energy storage, it is necessary to understand the complex flow behaviour. This thesis provides a basis for describing the effects and introduces a CFD simulation model. An innovative storage tank construction is used as the object of investigation, whereby the radial diffuser is mounted directly to a floating ceiling. Advantages of this arrangement are shown, flow effects are described and the influence of different loader geometries on the thermal stratification is investigated. For discharging up to 98 °C at atmospheric pressure, a flow-optimized free-form diffuser was developed to avoid cavitation inside the loading device. The tests also show that a highly asymmetrical and unidirectional flow over the circumference of the radial diffuser can occur during loading. Thanks to countermeasures like baffles and perforated plates, an almost symmetrical outflow can be restored and the stratification quality improved. In addition to numerical studies with RANS and LES, numerous experiments in the laboratory and at a 100m3 store were performed.

info:eu-repo/classification/ddc/620

ddc:620