Global ETD Search

21	Status Mapping of tank to grave management of Low-GWP refrigerants. Parra Gimeno, Sandra January 2023 (has links) Refrigeration plays a vital role today in various residential, commercial, and industrial processes, requiring refrigerants to facilitate the cooling or heating processes. Over time, refrigerants have undergone significant changes to meet technological, social, environmental, and economic needs. Refrigerants' evolution can be categorized into four generations. The first three generations come from the early use of natural compounds (CO2, SO2), to the dominance of chlorofluorocarbons (CFCs) and hydrochlorofluorocarbons (HCFCs), followed by the ozone protection era of hydrofluorocarbons (HFCs)1. However, HFCs presented new challenges due to their high Global Warming Potential (GWP), leading to the development of 4th generation refrigerants formed by hydrofluoroolefins (HFOs) like R- 1234yf. However, to minimize GHG emissions even more and phase out of high Global Warming Potential (GWP) alternatives, following the Montreal Protocol (globally) and the F-Gas Regulation (Europe), low-GWP refrigerants emerge. This group includes compounds with a GWP value below or equal to 150, such as natural refrigerants, new synthetic (R-1234yf) or older compounds (R-152a). The research gap in this MSc thesis addresses the management of particularly synthetic low-GWP refrigerants throughout their entire useful lifecycle, focusing on the tank-to-grave concept. This concept addresses the useful life of the refrigerants, starting with their procurement and charging into refrigeration and heat pump units (during manufacturing), and then their distribution, use, and end-of-life management. This, therefore, excludes the extraction of raw materials and manufacturing of refrigerants. However, the Life Cycle Assessment (LCA) approach analyses environmental impacts in all product phases (including raw materials extraction). Within this context, this thesis explores the different stakeholder procedures and activities for managing refrigerants throughout their lifetime. Different stakeholders or organizations, including heat pump/refrigeration system manufacturers, their service organizations, end-users, and end- of-life management organizations are involved in this process. Whenever possible, a representative or more from a given stakeholder category was thus interviewed. However, possible limitations such as lack of certain stakeholder involvement, limited information about some stakeholder groups, as well as the assumption of generalisability of the results obtained, are considered throughout this report. For stakeholder categories for which interviewing was not possible, literature-based mapping was conducted. Furthermore, comprehending the current legislation and standards was done as it is essential to grasp the complete process of handling of refrigerants. Additionally, as it concerns the management of refrigerants throughout their useful lifecycle, studying their potential applicability with Life Cycle Assessment (LCA) is of interest. Finally, the entire project is analysed from a sustainability perspective, exploring the advantages and disadvantages it entails. Before delving into the information about stakeholders, it is essential to establish a theoretical context related to the process of refrigerant management. The first key role is to understand Life Cycle Thinking (LCT), LCA and Material Flow Analysis (MFA) and how to apply these to the management of refrigerants. In addition, the concept of tank-to-grave management is explained, along with the various groups or organizations involved in different phases of a refrigerant's life. These groups include manufacturers, service organizations, supplier organizations, cold chain organizations, recovery organizations, reclamation organizations, disposal organizations as well as certain related associations and certifying bodies. Furthermore, given the importance of the concept of recovery in this project, its meaning is compared from the perspective of refrigerant management and waste hierarchy. Furthermore, the F-Gas Regulation and some of its articles, related to leakage control and the frequency of leakage checks according to the type of equipment used, how the recovery process should be carried out or the strategies related to market positioning and control of the use of these F-gases are studied. In addition, the Air-Conditioning, Heating and Refrigeration Institute (AHRI) standards are investigated, as they are widely used in the refrigeration sector and explain some procedures related to activities such as composition analysis or procedures to be performed with recovery equipment. Lastly, the Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH) Regulation and the potential implications of implementing the per-and poly-fluoroalkyl substances (PFAS) ban proposal are explored due to their significant possible impact on the refrigeration industry in future years. This is because PFAS includes almost all synthetic refrigerants. To gather information about the current situation and practices in the refrigeration sector, the research adopts a qualitative approach, centred on in-depth interviews with different stakeholders. These interviews provide valuable firsthand insights into the practices, experiences, and perceptions of stakeholders regarding the management of synthetic low-GWP refrigerants. These interviews were based on a series of questionnaires, developed, and customized within the project, according to the types of organization. Moreover, with the interviewees' consent, these interviews were recorded, and transcriptions were created. These transcripts were systematically coded and analysed to identify recurring themes and patterns, as well as differences between the different stakeholders’ inputs. The next point to address was the concept of sustainability. The goal is to introduce this concept and explain its significance in society, particularly with the implementation of initiatives like the United Nations Sustainable Development Goals (SDGs). Therein, these concepts were applied to the topic and scope of this master’s thesis, i.e., on refrigerants management, discussing some advantages, and disadvantages regarding the use of refrigerants and some steps of their management. The thesis shows that the current refrigeration industry is not only dominated by synthetic low-GWP refrigerants, but also natural refrigerants are widely used. Additionally, different opinions and methodologies arose regarding a series of topics. Firstly, when discussing whether they checked for changes in refrigerant composition, it was not possible to obtain a general trend. Secondly, for leak detection systems, different methodologies were used depending on the needs of the organisation, but both manual and fixed systems were mentioned. Finally, regarding end-of-life management, all organizations agreed that the first step should be the recovery of the refrigerant. After that, there are two different options: reclamation (purifying an old refrigerant to obtain one with the characteristics of a virgin refrigerant), and disposal (usually by sending the refrigerants to incineration). F-Gas Regulation and AHRI are the most widely used regulations at present, while organizations expect the PFAS ban to become a real regulation in the future. As a result, most organizations are leaning towards a future dominated by natural refrigerants, which may necessitate new regulations, certain technical changes, and possibly new business models. To conclude, tank-to-grave management of synthetic low-GWP refrigerants offers opportunities for the refrigeration industry, as this concept helps to let you know all the stakeholders involved and the processes they employ, and together with the application of the LCT approach, it is easier to understand how different activities, e.g., recovery and reclamation, can be improved to reduce the environmental impact of these compounds. The study finally considered both natural and synthetic low-GWP refrigerants. Moreover, technical aspects such as analysis composition or leak detection systems, together with end-of-life management approaches and techniques (reclamation or disposal) differed between organizations, so no global trend regarding the Swedish situation could be given. Finally, two possible scenarios arise regarding the legislation: on the one hand, if the PFAS ban proposal is not approved, the industry would continue phasing out high-GWP refrigerants while prioritising reclamation and/or waste energy use from incineration of synthetic low-GWP refrigerants. On the other hand, if the ban is approved, natural refrigerants would become the main and almost only option, requiring adjustments and compliance with new regulations due to their flammability. About the future work to do in this thesis, new interviews with stakeholders that were not interviewed the first time. Moreover, a second round of interviews to address doubts that have appeared. Finally, to study how the rate of reclaimed refrigerants can be increased. / Kylteknik spelar en avgörande roll idag i olika bostads-, kommersiella och industriella processer, och kräver köldmedier för att underlätta kyl- eller värmepumpsteknik processarna. Över tiden har köldmedium genomgått betydande förändringar för att möta teknologiska, sociala, miljömässiga och ekonomiska behov. Köldmediernas utveckling kan kategoriseras i fyra generationer. De första tre generationerna kommer från den föregående användningen av naturliga komponenter (CO2, SO2), till dominansen av klorfluorkarboner (CFCs) och hydroklorfluorkarboner (HCFCs), följt av ozonskyddsperioden med hydrofluorkarboner (HFCs). Dock presenterade HFCs nya utmaningar på grund av deras höga Globala Uppvärmningspotential (GWP), vilket ledde till utvecklingen av fjärde generationens köldmedier, som bildas av hydrofluorolefiner (HFOs) som R-1234yf. För att dock minska växthusgasutsläppen ännu mer och fasa ut hög-GWP-alternativ enligt Montrealkonventionen (globalt) och F-gasförordningen (Europa), utvecklades låg-GWP-köldmedier. Denna grupp inkluderar komponenter med ett GWP-värde som är lägre än eller lika med 150, såsom naturliga köldmedier, nya syntetiska (R-1234yf) eller äldre komponenter (R-152a). Forskningsgapet i denna exjobb behandlar hanteringen av särskilt låg-GWP- köldmedier under hela deras användbara livscykel och fokuserar på tank-till-grav-konceptet. Detta koncept tar upp köldmediernas användbara livslängd, börjande med deras upphandling och påfyllning i kylteknik- och värmepumpsenheter (under tillverkning), och sedan deras distribution, användning och hantering vid livets slutskede. Detta exkluderar därför utvinning av råmaterial och tillverkning av köldmedier. Medan Livscykelbedömningsmetoden (LCA) analyserar miljöpåverkan i alla produktfaser. Inom denna kontext syftar denna avhandling till att utforska de olika intressenternas procedurer och aktiviteter för att hantera köldmedium under deras livstid. Olika intressenter eller organisationer, inklusive tillverkare av värmepumpar/kylsystem, deras serviceorganisationer, slutanvändare och organisationer för hantering av livets slutskede, är involverade i denna process. När det var möjligt, intervjuades en representant eller flera från en given intressentkategori. Eventuella begränsningar såsom brist på viss intressentmedverkan, begränsad information om vissa intressentgrupper, samt antagandet om generaliserbarhet av de erhållna resultaten, beaktas genom hela denna rapport. För intressentkategorier där intervjuer inte var möjliga, genomfördes kartläggning baserad på litteratur. Vidare genomfördes en förståelse av nuvarande lagstiftning och standarder, eftersom det är väsentligt att förstå hela processen för hantering av köldmedium. Dessutom, då det gäller hanteringen av köldmedier under deras användbara livscykel, är det intressant att studera deras potentiella användbarhet med Livscykelbedömningen (LCA). Slutligen analyseras hela projektet ur ett hållbarhetsperspektiv, där fördelar och nackdelar utforskas. Innan vi dyker in i informationen om intressenter är det väsentligt att etablera en teoretisk kontext relaterad till processen för hantering av köldmedium. Den första nyckelrollen är att förstå Livscykeltänkande (LCT), LCA och Materialflödesanalys (MFA) och hur dessa kan tillämpas på hanteringen av köldmedier. Dessutom förklaras konceptet med tank-till-grav-hantering, tillsammans med de olika grupperna eller organisationerna som är involverade i olika faser av ett köldmedium liv. Dessa grupper inkluderar tillverkare, serviceorganisationer, leverantörsorganisationer, kyltekniskedjeorganisationer, återvinnings- och reklamationsorganisationer, avfallshanteringsorganisationer (som handlar kassering) samt vissa relaterade komponenter och certifierande organ. Vidare, med tanke på vikten av återvinningskonceptet i detta projekt, jämförs dess betydelse ur perspektivet av köldmediumshantering och avfallshanteringshierarkin. Vidare studeras F-gasförordningen och några av dess artiklar, relaterade till läckagekontroll och frekvensen för läckagekontroller enligt typen av utrustning som används, hur återvinningsprocessen bör genomföras eller strategier relaterade till marknadspositionering och kontroll av användningen av dessa F-gaser. Dessutom undersöks standarderna från Air-Conditioning, Heating and Refrigeration Institute (AHRI), eftersom de används brett inom kylteknisksektorn och förklarar vissa procedurer relaterade till aktiviteter såsom sammansättningsanalys eller procedurer som ska utföras med återvinningsutrustning. Slutligen utforskas REACH-förordningen (Registration, Evaluation, Authorisation and Restriction of Chemicals) och de potentiella konsekvenserna av att genomföra förslaget om förbud mot per- och polyfluoralkylämnen (PFAS), på grund av deras betydande möjliga påverkan på kyltekniskaindustrin under kommande år. Detta beror på att PFAS inkluderar komponenter som ingår i gruppen med låg-GWP- köldmedier. För att samla information om den nuvarande situationen och praxis inom kylteknisksektorn använder forskningen en kvalitativ metodik, fokuserad på djupgående intervjuer med olika intressenter. Dessa intervjuer ger värdefulla förstahandsinsikter i intressenternas praxis, erfarenheter och uppfattningar om hanteringen av låg-GWP- köldmedier. Dessa intervjuer baserades på en serie enkäter som utvecklades och anpassades inom projektet, enligt organisationstyper. Dessutom spelades dessa intervjuer in med intervjuobjektens samtycke, och transkriptioner skapades. Dessa avskrifter kodades och analyserades systematiskt för att identifiera återkommande teman och mönster samt skillnader mellan olika intressenters synpunkter. Det nästa punkten att behandla var begreppet hållbarhet. Målet är att introducera detta begrepp och förklara dess betydelse i samhället, särskilt med införandet av initiativ som FNs hållbarhetsmål (SDGs). Därigenom tillämpades dessa begrepp på ämnet och omfattningen av denna exjobb, det vill säga hantering av köldmedier, och diskuterades vissa fördelar och nackdelar med användningen av köldmedium samt vissa steg i deras hantering. Uppsatsen visar att den nuvarande kyltekniskaindustrin inte bara domineras av låg-GWP-köldmedier, utan naturliga köldmedier används också i stor utsträckning. Dessutom framkom olika åsikter och metoder om en rad ämnen. För det första, när det diskuterades om de kontrollerade förändringar i köldmedier sammansättning, var det inte möjligt att få fram en allmän trend. För det andra, när det gäller läckagedetekteringssystem, användes olika metoder beroende på organisationens behov, men både manuella och fasta system nämndes. Slutligen, gällande hantering av livets slutskede, var alla organisationer överens om att första steget borde vara att återvinna köldmedier. Därefter finns det två olika alternativ: återvinning (rensa ett använt köldmedium för att erhålla ett med egenskaperna hos ett jungfruligt köldmedium) och kassering (vanligtvis genom att skicka köldmedier till förbränning). F-Gasförordningen och AHRI är de mest använda reglerna för närvarande, medan organisationer förväntar sig att förbudet mot PFAS kommer att bli en verklig reglering i framtiden. Som ett resultat lutar de flesta organisationer mot en framtid dominerad av naturliga köldmedier, vilket kan kräva nya regler, vissa tekniska förändringar och möjligen nya affärsmodeller. Sammanfattningsvis erbjuder tank-till-grav-hantering av låg-GWP-köldmedier möjligheter för kyltekniskaindustrin, då detta koncept hjälper till att identifiera alla involverade intressenter och de processer de använder sig av. Tillsammans med tillämpningen av LCT blir det lättare att förstå hur olika aktiviteter, t.ex. återvinning och rening, kan förbättras för att minska miljöpåverkan från dessa materialer. Studien beaktade både naturliga och låg-GWP- köldmedier. Dessutom skilde sig tekniska aspekter såsom sammansättningsanalys eller läckagedetekteringssystem, tillsammans med slutskedeshanteringsmetoder och tekniker (återvinning eller kassering) mellan organisationer, så ingen global trend angående den svenska situationen kunde fastställas. Slutligen framträder två möjliga scenarier avseende lagstiftningen: å ena sidan, om förslaget om förbud mot PFAS inte godkänns, skulle industrin fortsätta fasa ut hög-GWP- köldmedier och samtidigt prioritera rening och/eller energiåtervinning från förbränning av låg-GWP- köldmedier. Å andra sidan, om förbudet godkänns, skulle naturliga köldmedier bli huvudalternativet och nästan det enda alternativet, vilket kräver anpassningar och efterlevnad av nya regler på grund av deras brandfarlighet. Om framtida arbete i denna avhandling, inkluderar det nya intervjuer med intressenter som inte intervjuades första gången. Dessutom en andra omgång intervjuer för att ta upp de tvivel som har uppstått. Slutligen, att studera hur återvunna köldmedium kan öka i takt. Engineering and Technology Teknik och teknologier
22	Chlazení ve vzduchotechnice / Cooling in air conditioning Vacková, Tereza January 2018 (has links) This diploma thesis deals with the issue of regrigerant cooling. The theoretical part describes laws of termodynamics, basic thermodynamic processes of ideal gas and cooling cycles. The dependence of the cooler bypass factor of air handling unit on its capacity is the main issue of the experimental part. The aim of practical part is to design the air-conditioning device using knowledge of experimental part and compare it with the proposal of air-conditiong device in my bachelor thesis.
23	Tests of Fluid-to-Fluid Scaling Laws for Supercritical Heat Transfer Mouslim, Abderrazzak 20 March 2019 (has links) A comparison of available fluid-to-fluid scaling laws for scaling convective heat transfer at supercritical pressures showed that the ones suggested by Zahlan, Groeneveld and Tavoularis (ZGT) have some advantages. The applicability of the ZGT laws was tested for pairs of fluids including carbon dioxide, water or Refrigerant R134a. The conditions of previous measurements taken in the Supercritical University of Ottawa Loop with CO2 flowing vertically upwards in an electrically heated tube with 8 mm ID were scaled to equivalent conditions in R134a and new measurements of the heat transfer coefficient (HTC) were taken in the same tube using the latter fluid. The inlet pressure was 1.13 times the critical pressure (4.06 MPa), the mass flux was in the range from 212 kg/m^2 s to 1609 kg/m^2 s, the heat flux was in the range from 2 kW/m^2 to 137 kW/m^2, and the inlet temperature was in the range from 62 ℃ to 105 ℃. The HTC at equivalent conditions in water was also determined with the use of transcritical look-up tables. Average and linearly varying corrections to the ZGT scaling laws were derived by statistical analysis for each pair of fluids under NHT or DHT conditions. Such corrections reduced the standard deviation of the scaling error but did not eliminate the presence of large errors under many sets of conditions. As expected, scaling errors were in general larger for DHT than NHT conditions. The present results did not reveal any systematic and correctable dependence of the scaling error upon the mass flux or heat flux but showed that scaling errors became particularly large as the bulk temperature T_b approached the pseudocritical temperature T_pc. In conclusion, the ZGT scaling laws appear to be fairly accurate for the three pairs of fluids considered in the liquid-like region with T_b/T_pc ≤ 0.94 and possibly in the gas-like region with T_b/T_pc ≥ 1.02, whereas outside this range scaling errors could be significant. It was also found that the ZGT scaling laws do not scale accurately the onset of DHT in different fluids. supercritical pressure heat transfer scaling Refrigerant 134a carbon dioxide pipe flow SCWR fluid-to-fluid scaling
24	Performance and safety of centrifugal chillers using hydrocarbons. Tadros, Amir, The University of New South Wales. School of Mechanical & Manufacturing Engineering, UNSW January 2008 (has links) The high ozone depletion and global warming potentials of fluorocarbon refrigerants have resulted in prohibitions and restrictions in many markets. Hydrocarbon refrigerants have low environmental impacts and are successfully used in domestic refrigerators and car air conditioners but replacing fluorocarbons in centrifugal chillers for air conditioning applications is unknown. Hydrocarbon replacements need a heat transfer correlation for refrigerant in flooded evaporators and predictions for operating conditions, capacity and performance. Safety precautions for large quantities of hydrocarbon refrigerants are needed and control of overpressure in plantrooms requires accurate prediction. Reliable correlations exist for forced convection in a single phase flow, condensation outside tubes and evaporation off sprayed tubes. For flooded evaporators this thesis proposes a new correlation for forced convection boiling of any refrigerant. An enhancement factor is combined with a modified Chen coefficient using recent pool boiling and forced convection correlations outside tubes. This correlates within typically a factor of two to known boiling literature measurements for CFC-113, CFC-11, HCFC-123, HFC-134a and HC-601. The operating conditions, capacity and performance of replacement hydrocarbons in centrifugal chillers were predicted using fluorocarbon performance as a model. With the new heat transfer correlation hydrocarbon predictions for flooded evaporators were made. For any fluorocarbon refrigerant there exists a replacement mixture of hydrocarbons which with a rotor speed increase about 40% gives the same cooling capacity in the same centrifugal chiller under the same operating conditions. For example replacing HCFC-123 in a flooded evaporator with HC-601/602 [90.4/9.6] and increasing the rotor speed by 43% will increase the coefficient of performance by 4.5% at the same cooling capacity. The maximum plantroom overpressure considered was from leakage and ignition of a uniform air/refrigerant mixture with maximum laminar burning velocity. Flow was modelled using a turbulence viscosity due to Launder and Spalding and turbulent deflagration using a reaction progress variable after Zimont. These partial differential equations were solved approximately for two and three dimensional geometries using finite volume methods from the Fluent program suite. Simple overpressure predictions from maximum flame area approximations agreed with Fluent results within 13.7% promising safe plantroom design without months of computer calculation. refrigeration refrigerant replacements hydrocarbons centrifugal chiller flooded evaporator forced convection boiling safety overpressure in plantrooms
25	Experimental Analysis Of A Refrigerant Air Dryer Uslu, Mustafa 01 November 2012 (has links) (PDF) Compressed air is widely used particularly in industry. In order to increase the quality of the process and lifetime of the machine, the compressed air should be dried. Therefore the air is used after compression and drying processes. The most commonly used machines that do this process are called &ldquo / Refrigerant Air Dryers&rdquo / . These air dryers are designed to cool and dehumidify the moist air. The process of decreasing temperature is carried out by a refrigerant, R134a. Unlike design conditions, dryers are working in variable loads (variable compressed air flow rates). An experimental setup is prepared for analyzing the variance on the machine and the performance under these variable loads. This thesis includes the design, preparation and the modification of the refrigeration experimental setup for refrigerant air dryers. The setup is tested under three different conditions and the results are compared. TJ Mechanical Engineering. 1-1570
26	Microfluidic Investigation of Tracer Dye Diffusion in Alumina Nanofluids Ozturk, Serdar 1979- 14 March 2013 (has links) Nanofluids, a new class of fluids engineered by suspending nanometer-sized particles in a host liquid, are offered as a new strategy in order to improve heat and mass transfer efficiency. My research was motivated by previous exciting studies on enhanced mass diffusion and the possibility of tailoring mass transport by direct manipulation of molecular diffusion. Therefore, a microfluidic approach capable of directly probing tracer diffusion between nanoparticle-laden fluid streams was developed. Under conditions matching previously reported studies, strong complexation interactions between the dye and nanoparticles at the interface between fluid streams was observed. When the tracer dye and surfactant were carefully chosen to minimize the collective effects of the interactions, no significant change in tracer dye diffusivity was observed in the presence of nanoparticles. Next, adapting tracer dyes for studies involving colloidal nanomaterials was explored. Addition of these charged tracers poses a myriad of challenges because of their propensity to disrupt the delicate balance among physicochemical interactions governing suspension stability. Here it was shown how important it is to select the compatible combinations of dye, nanoparticle, and stabilizing surfactant to overcome these limitations in low volume fraction (< 1 vol%) aqueous suspensions of Al2O3 nanoparticles. A microfluidic system was applied as a stability probe that unexpectedly revealed how rapid aggregation could be readily triggered in the presence of local chemical gradients. Suspension stability was also assessed in conjunction with coordinated measurements of zeta potential, steady shear viscosity and bulk thermal conductivity. These studies also guided our efforts to prepare new refrigerant formulations containing dispersed nanomaterials, including graphene nanosheets, carbon nanotubes and metal oxide and nitride. The influence of key parameters such as particle type, size and volume fraction on the suspension's thermal conductivity was investigated using a standard protocol. Our findings showed that thermal conductivity values of carbon nanotube and graphene nanosheet suspensions were higher than TiO2 nanoparticles, despite some nanoparticles with large particle sizes provided noticeable thermal conductivity enhancements. Significantly, the graphene containing suspensions uniquely matched the thermal conductivity enhancements attained in nanotube suspensions without accompanying viscosity, thus making them an attractive new coolant for demanding applications such as electronics and reactor cooling. suspension stability heat transfer tracer dye microfluidics nano refrigerant mass diffusion Nanofluid
27	Modeling and Testing Of Water-Coupled Microchannel Gas Coolers for Natural Refrigerant Heat Pumps Fronk, Brian Matthew 10 July 2007 (has links) An experimental and analytical investigation on a water-coupled microchannel gas cooler was conducted in this study. With a relatively low critical temperature (31.1°C/89.9°F) and pressure (73.7 bar/1070 psi), CO2 is a supercritical fluid on the high side of a vapor compression cycle under warmer ambient conditions. This results in a non-isothermal heat rejection through the component known as the gas cooler. The large temperature glide in the heating of tap water matches well with the supercritical temperature glide of carbon dioxide. Unlike in a condensation process, here the non isothermal heat rejection can be used to advantage in a counterflow gas cooler, in which the water outlet temperature can rise to the desired high value. This minimizes temperature pinch and keeps gas cooler size economical. The focus of this thesis was to develop and experimentally validate a heat transfer model for a water-coupled microchannel gas cooler. The heat exchanger was tested in a small capacity experimental heat pump system. The heat pump system was designed to simulate conditions for heating domestic tap water to a usable temperature. A matrix of test points varying refrigerant inlet temperature, refrigerant mass flow rate, water inlet temperature and water volumetric flow rate were used to characterize the performance of the heat exchanger and validate the model. Natural refrigerant heat pump Heat exchanger model Supercritical gas cooling Carbon dioxide
28	Analysis and Experimental Investigation on Energy Conservation of VRV Systems in Hot Humid Climates Chuang, Yi-hung 08 July 2004 (has links) Being located in subtropical area, the weather in Taiwan is hot and humid which imposing huge cooling load on buildings. Conventionally, central air-conditioning plants were designed using refrigerant compressors to make chilled water, and then pumped through the zone pumps to meet the cooling load, providing air-conditioning by Fan Coil Unit (FCU) or Air-Handling Units (AHU) by ductwork. To meet the varying cooling demand, two important systems were developed for energy savings, namely, the Variable Water Volume (VWV) system, and the Variable Air Volume (VAV) system, which has been widely adapted in Taiwan area. The working principle is mainly devoted to adjusting the volume of the chilled water and/or air volume delivered through inverter-driven pimps and fans to achieve energy saving. On the other hand, recently in Japan, an important energy-saving air-conditioning system has been developed which directly varying the refrigerant flow rate to meet the varying cooling demand by inverter-driven compressors, named VRV system. Comparative to the conventional air-conditioning system, the heat exchange mechanism of the VRV system has been effectively enhanced by direct exchange of the refrigerant and the cool air, which is in effect a combination of the VWV and VAV system. It provided huge energy saving potential for the application on buildings with moderate cooling loads, such as 100 USRT or so. It is the goal of this research project, to evaluate the performance of the VRV system in Taiwan¡¦s hot and humid climate, by performing full-scale experimental investigation so that energy savings effect can be validated quantitatively. Since VRV system is fairly new in Taiwan, the validation of the system performance under local weather condition is of particular importance. It is anticipated that through the changing of the operation conditions, such as different outdoor conditions, various partial load conditions, and different scheduling of the VRV system, the power consumption of the VRV vs. conventional system can be compared precisely and quantitatively. These experimental data will, in turn, provides valuable reference to the establishment of the building energy consumption index in Taiwan, which outwits the direct adoption of the foreign data such as from Japan, in achieving a much reliable database. VRV Air-conditioning System Building energy conservation Full-scale Experiment Variable Refrigerant volume
29	Simulations for thermodynamic analyses of transcritical carbon dioxide refrigeration cycle and reheat dehumidification air conditioning cycle Brown, Mark 05 May 2006 (has links) Carbon dioxide is a natural refrigerant that has been considered for certain refrigeration and air conditioning applications. The coefficient of performance (COP) of carbon dioxide cycles is low compared to classical vapor compression cycles. The aim of this portion of the thesis is to present a thermodynamic analysis of carbon dioxide cycles in order to evaluate the potential performance of a refrigeration cycle using carbon dioxide. A thermodynamic model for the cycle is proposed which can simulate the operation of a carbon dioxide refrigeration cycle. This model takes into account the practical effects of the thermo-physical properties of carbon dioxide as a refrigerant in a trans-critical cycle. One and two-stage compression processes were considered for comparison purposes. A sensitivity analysis has been conducted so that cycle performance can be estimated. The effect of cycle components on system capacity and cycle performance was investigated. The second portion of the thesis deals with the concept of reheat air conditioning, and looks at the performance of different reheat cycles. The thesis looks at reheat systems that utilize different placements of the reheat coil. The overall performance of these reheat systems is then calculated. These systems require no additional electric power to reheat the air after it is cooled and dehumidified in the evaporator. Instead, they use heat from the condenser heat exchanger to reheat the air during partial load conditions. Four different reheat configurations are discussed and analyzed to determine performance levels. Visual Basic programs were written for each of the four cycles to simulate the different configurations and to evaluate key performance parameters. Graphs were developed based on these programs, where critical variables were changed to monitor trends in coefficient of performance. The thermodynamic cycle of each reheat configuration is developed, with equations presented with figures depicting the cycles. Refrigerant 134a was used in the programs throughout the reheat section of the thesis. The reheat coefficient of performance is used as the basis for cycle comparison. The relative performance of the four cycles is illustrated in the figures and explained in the Results and Discussion section at the end of chapter 3. Coefficient Performance Single-Stage Two-Stage Refrigerant American Studies Arts and Humanities
30	Experimental study of third (HFC) and fourth generation (HFO) refrigerants during flow boiling in singularities Padilla Gomez, Miguel David 18 November 2011 (has links) (PDF) The refrigerant charge reduction in HVAC\R systems is an important issue because it falls within environmental policies regarding refrigerants contributions to the greenhouse effect. A way to move toward charge reduction is to increase the compactness of heat exchangers, which means more complex designs of the evaporators. Nevertheless, while a large amount of studies have has been published on the thermal and hydraulic analysis of flow boiling of refrigerants in horizontal tubes, very little attention has been given to flow boiling in geometries different from straight tubes. This PhD thesis aims at studying the flow boiling characteristics of third generation (HFC) and fourth generation fluids such as HFO-1234yf in geometries which modify the fluid dynamics and two-phase flow with respect to horizontal straight tubes. To achieve this goal, an experimental test facility was specifically designed and built to conduct refrigerant evaporation experiments. This test facility allowed to perform flow regimes visualizations and pressure drop measurements in singularities (such as sudden contractions and return bends). First, two-phase flow regimes visualizations have been carried out using HFO-1234yf, R-134a and R-410A either in straight tubes or in singularities. A qualitative analysis of the flow behavior and also several comparisons to flow pattern prediction methods from the literature were conducted. The second objective of this work was to characterize the flow disturbances caused by singularities such as sudden contractions and return bends, and to study their effects on the hydrodynamic performance (e.g. pressure drop) of refrigerants.Lastly, pressure drop databases for third and fourth generation refrigerants are presented. [SPI:OTHER] Engineering Sciences/Other Refrigerant Return bend Flow pattern Pressure drop

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