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31	Reglerbar kylartäckning - En lösning till isbildningsproblematik i laddluftkylaren Hemmingsson, Daniel January 2015 (has links) Denna rapport ingår i ett examensarbete på avancerad nivå inom ämnet produktutveckling.Arbetet innefattar en fallstudie som genomförts vid RTGA, Scania CV AB i Södertälje.Examensarbetet omfattar 30 högskolepoäng och har genomförts av undertecknad,teknologstudent från Mälardalens Högskola vårterminen 2015. Rapporten har upprättats i tvåversioner, en för Scania CV AB respektive en generell version där känslig företagsspecifikinformation har censurerats. I takt med att utvecklingen av motorprestanda fortskrider, med avseende på ökademotoreffekter samt teknikutveckling för emissionsreglering, så ökar också kravet på prestandaför kylsystem som måste klara av att kyla bort högre effekter. Fordonskombinationer medkraftfulla laddluftkylare löper dock stor risk att drabbas av utfälld kondens som fryser till is iladdluftkylaren vid låga omgivningstemperaturer. Isen medför ett tryckfall i laddluftkylarenmed prestandabortfall som följd. Scanias lösning till problematiken är en så kallad kylargardinsom syftar till att reducera kylluftflödet genom laddluftkylaren till den mån att isbildning intesker. Kylargardinen monteras manuellt av föraren framför kylarpaketet dåomgivningstemperaturen understiger 5 °C. Det finns även andra fördelar med att begränsa det yttre kylluftflödet som passerar genomkylarpaketet. Lastbilars kylsystem är i regel överdimensionerade för normala driftfall såsommotorvägskörning vilket betyder att maximal kylning inte krävs vid dessa situationer. Genomatt reducera det yttre kylluftflödet genom kylarpaketet så kan även hela fordonets totalaluftmotstånd reduceras vilket kan utnyttjas i syfte att reducera bränsleförbrukningen. För att erhålla en bra balansgång mellan aerodynamik och kylprestanda samt motverkaproblemet med isbildning i laddluftkylaren fanns därför en önskan om att en reglerbarkylartäckning skulle utvecklas för att kunna reglera kylluftflödet genom fordonets kylarpaketvid behov. Detta arbete innefattar en fallstudie där olika produktutvecklingsverktyg använts för att ta framolika konceptlösningar, anpassade för en specifik lastbil. Datorstödda flödessimuleringarutnyttjas för att utvärdera respektive verifiera konceptens funktion jämfört med olika referensmodeller. Resultatet visar bland annat att det slutgiltiga konceptets funktionsduglighet överensstämmermed den lösning som används idag samt att kylluftflödet inte påverkas nämnvärt då maximalkylkapacitet eftersträvas. Resultatet från den aerodynamiska flödessimuleringen indikerar ävenatt fordonets totala luftmotstånd kan reduceras med - Drag Counts (DC) vid hastigheten90 km/h och 0° vindriktning. Detta medför att bränsleförbrukningen i det specifika driftfallet,enligt tumregel, antas reduceras med - % för det specifika fordonet. / This report is part of a Master thesis project in the subject of Product Development. The workincludes a case study which was carried out at RTGA, Scania CV AB in Södertälje. The workcomprises 30 credits and was conducted by a student from Mälardalen University during thespring semester 2015. The report has been prepared in two versions; one for Scania CV AB anda generalized version where sensitive company specific information has been censored. The development of vehicle engine performance progresses in a rapid pace. This progressinclude increased engine power and improved technical features for emission control. This alsogoes for the requirement on performance of cooling systems in heavy trucks, which has tohandle dissipation of the increased power. Vehicles with powerful charge air coolers however,runs a high risk of being affected by iced condensation in the charge air cooler at low ambienttemperatures. The ice build-up results in a pressure drop in the charge air cooler with a loss ofengine performance as a consequence. Scania's solution to the problem is a so called radiatorblind designed to reduce the cooling air flow through the charge air cooler to the extent thatice build-up does not occur. The blind is mounted manually in front of the cooler package whenthe ambient temperature is expected to be below 5 °C. There are also other advantages to limit the outer cooling air flow passing through the coolingpackage. The cooling systems in heavy trucks are usually oversized for normal operatingconditions such as highway cruising, which means that maximum cooling is not required inthese situations. By reducing the airflow through the cooler package, the vehicle's total airresistance is reduced, which can be utilized in order to reduce fuel consumption. To obtain a good balance between aerodynamics and cooling performance, and to counteractthe problem of ice build-up in the charge air cooler, there was a desire for an adjustable radiatorcoverage which would be able to regulate the airflow through the vehicle's cooling packagewhen needed. This work includes a case study in which various product development tools are used toinvestigate different concept solutions, designated for a specific truck model. Computationalfluid dynamics (CFD) are used to evaluate and validate the concept’s functionality andcomparing them to different reference models. The results reveal that the final concept functionality is consistent with the one used today, andthat the cooling air flow is not significantly affected when maximum cooling capacity is strivedfor. The results of the aerodynamic flow simulation also indicate that the vehicle's total airresistance can be reduced by - Drag Counts (DC) at the speed of 90 km/h and 0° yaw angle.This means that fuel consumption in the specific operating case, as rule of thumb, is assumedto be reduced by - % for the specific vehicle. Charge Air Cooler Ice build-up Condensation Truck CFD Drag reduction Aerodynamics Laddluftkylare Kondens Isbildning Lastbil CFD Luftmotstånd Aerodynamik
32	Snížení energetické náročnosti výrobního areálu / Reducing the energy intensity of production area Tannert, Jiří January 2017 (has links) The diploma thesis deals with possibilities and subsequent proposal of individual measures to achieve the reduction of energy intensity in the company fischer Vyškov, s.r.o. At the beginning of the thesis is the analysis of the current state of the areas on which the work is further focused. These include the production of compressed air, cooling technology and lighting. The main cost-saving measures for the production of compressed air is a proposal to purchase a new compressor. For cooling, there are free cooling options, including the design of a dry cooler and its inclusion in the cooling circuit. The last part is the design of a new lighting system using LED lamps.
33	Návrh aditivně vyráběného tepelného výměníku olej-voda pro formuli student / Design of additively manufactured oil-water heat exchanger for formula student Březina, Josef January 2019 (has links) Diploma thesis deals with a design and manufacture of oil cooler by technology Selective Laser Melting for Formula Student. The main goal of the design is to ensure optimal oil circuit cooling at a minimal mass. The design of manufactured oil cooler is based on a plate heat exchanger concept with optimized intakes by CFD simulations and heat exchange body with fins of thickness 0.17 mm. An analytical model was created. SLM process parameters were optimized for a thin walls printing, Subsequently, a fabrication of testing parts was finished for measuring pressure drops and performances of micro heat exchangers. Results were used for an accuracy improvement of the analytical model and for consequent optimization of heat exchange surface. Afterwards optimization was executed for inlets and outlets by using flow simulations. A prototype was built and verified on a test stand. Performance of the designed oil cooler is 4.5 kW for race mode, where temperature drop of oil circuit is 22 °C. The lightweight design weighs 320 g, which reduces more than 47 % of a current oil-air cooler weight. Furthermore, a centre of gravity is decreased by designed placement of the cooler.
34	Návrh robotické buňky pro manipulační operace / Design of a Robotic Cell for Manipulation Operations Srdošová, Michaela January 2019 (has links) This Master`s thesis deals automation of the workplace for manipulation operations. Robot’s role is take cooler from case, insert them into the dimensional and tightness device and then robot must place cooler on the output conveyor in robotic cell. The thesis describe deployment working cell, the selection and design process of each device and the robotic cell is designed with the safety standards. On the end in this thesis is a technical-economics evaluation. The simulation model in Process Simulate is a aim of this thesis, because we know working cycle time from this model.
35	Konstrukční návrh aparatury pro destruktivní zkoušky termoelektrických modulů / Design of apparatus for destructive tests of thermoelectric modules Skalický, Michal January 2020 (has links) In order to reliably test thermoelectric modules, it is necessary to have a adequate measuring apparatus. The presented diploma thesis deals with the design of measuring apparatus capable of performing both long-term testing of thermoelectric modules at a constant high temperature and thermal cycling extension has been designed. Both types can be changed in a short time.
36	Optimalizace výroby těžkých ocelových odlitků / Optimization of heavy steel castings manufacture Malý, Václav January 2011 (has links) In its first part the work deals with the frequent defects of heavy steel castings. Experiments were carried out in very heavy bearing rings casting of cement kilns in order to reduce consumption of liquid metal and to increase the internal quality of castings. The progress was achieved by introducing new technologies; this thesis describes the technologies used and subsequently performs their comparison.
37	Revize a návrh úprav chladícího systému smykem řízených nakladačů B861, B961 / Review and propose modifications to the cooling system of skid steer loaders B861, B961 Bečka, Pavel January 2014 (has links) The object of this diploma thesis is revision of coolant system skid steer loaders “BOBEK” B861, B961 and his eventually optimization for prevention of overheating hydraulic system and engine. The first part dedicate of general issues of coolant skid steer loaders. The second part is the calculation during heat stress hydraulic systems of loader and the third part include proposals for solutions problems of overheating hydraulic systems and combustion engine.
38	A PRACTICAL SIMULATION METHODOLOGY TO IMPROVE FATIGUE LIFE PREDICTION OF ENGINE OIL COOLER UNDERGOING PRESSURE CYCLE TESTING Chan, KC Thomas 27 July 2014 (has links) <p>Computer simulation is widely used to predict the fatigue life of engine oil coolers that fail under pressure cycles. The objective of this study is to develop a practical simulation methodology to accurately predict the fatigue life of an engine oil cooler undergoing pressure cycle testing. The study focuses on two key areas of the simulation process. First, it investigates the effect of using linear and nonlinear FEA to provide stress or strain results for subsequent fatigue analysis. Second, due to lack of fatigue material properties for the aluminum coreplate material, approximate material models derived from tensile properties are used in fatigue life calculation. The study has attempted to find out the material model that gives the best correlation in life prediction. The life prediction correlation based on the Seeger, the Modified Universal Slopes and the Modified Mitchell models, together with the Modified Universal Slopes-Al model, are evaluated.</p> <p>It is concluded that the Modified Universal Slopes-Al model, which is a re-assessment of the Modified Universal Slopes model based on the fatigue data of 16 wrought aluminum alloys, gives the best life prediction for simulations using either linear or nonlinear approaches. Life prediction using nonlinear finite element results together with this approximate material model is recommended to be the best approach. On the other hand, a simple and quick linear analysis, followed by fatigue life calculation using this material model still gives life estimates with an acceptable level of confidence.</p> <p>In the last part of the study, the life prediction performance using different strain-life criteria, together with either Morrow or Smith-Watson-Topper (SWT) mean stress correction, are evaluated. It is found that SWT mean stress correction method is worse than that of Morrow in EOC fatigue life prediction in both linear and nonlinear approaches. Using the principal strain criterion with SWT mean stress correction gives conservative life prediction in both approaches. On the other hand, there are no significant differences in life prediction correlations using the principal strain, the Brown-Miller combined strain and the maximum shear strain strain-life criteria, with Morrow mean stress correction. As such, the Brown-Miller combined strain criterion with Morrow mean stress correction is the recommended strain-life model used in fatigue life calculation.</p> / Master of Applied Science (MASc) engine oil cooler pressure cycle testing fatigue life prediction Computer-Aided Engineering and Design Computer-Aided Engineering and Design
39	Steel Sheet Applications and Integrated Heat Management Ahmadi Moghadam, Parham January 2016 (has links) Increasing energy use has caused many environmental problems including global warming. Energy use is growing rapidly in developing countries and surprisingly a remarkable portion of it is associated with consumed energy to keep the temperature comfortable inside the buildings. Therefore, identifying renewable technologies for cooling and heating is essential. This study introduced applications of steel sheets integrated into the buildings to save energy based on existing technologies. In addition, the proposed application was found to have a considerable chance of market success. Also, satisfying energy needs for space heating and cooling in a single room by using one of the selected applications in different Köppen climate classes was investigated to estimate which climates have a proper potential for benefiting from the application. This study included three independent parts and the results related to each part have been used in the next part. The first part recognizes six different technologies through literature review including Cool Roof, Solar Chimney, Steel Cladding of Building, Night Radiative Cooling, Elastomer Metal Absorber, and Solar Distillation. The second part evaluated the application of different technologies by gathering the experts’ ideas via performing a Delphi method. The results showed that the Solar Chimney has a proper chance for the market. The third part simulated both a solar chimney and a solar chimney with evaporation which were connected to a single well insulated room with a considerable thermal mass. The combination was simulated as a system to estimate the possibility of satisfying cooling needs and heating needs in different climate classes. A Trombe-wall was selected as a sample design for the Solar Chimney and was simulated in different climates. The results implied that the solar chimney had the capability of reducing the cooling needs more than 25% in all of the studied locations and 100% in some locations with dry or temperate climate such as Mashhad, Madrid, and Istanbul. It was also observed that the heating needs were satisfied more than 50% in all of the studied locations, even for the continental climate such as Stockholm and 100% in most locations with a dry climate. Therefore, the Solar Chimney reduces energy use, saves environment resources, and it is a cost effective application. Furthermore, it saves the equipment costs in many locations. All the results mentioned above make the solar chimney a very practical and attractive tool for a wide range of climates. Solar chimney Trombe-wall Delphi method Heating Cooling natural ventilation Evaporation cooler Köppen climate classification Steel sheet Energy coating TRNSYS Ms Access
40	A cooler Penning trap to cool highly charged radioactive ions and mass measurement of 24Al Chowdhury, Usman 30 June 2016 (has links) Penning trap mass spectrometry (PTMS) can be used to test the Standard Model (SM) and to answer the questions related to the origin and abundance of the elements in the universe. There are several facilities worldwide specialized in PTMS and some of them can measure the masses of isotopes with half-lives in the range of milliseconds. TRIUMF’s ion trap for atomic and nuclear science (TITAN) is one such facility. In mass measurement the precision is linearly proportional to the charge state of the ion of interest. To increase the charge state, ions are charge-bred using an electron beam ion trap (EBIT) at TITAN. However, the charge breeding process introduces an energy spread among the ions which adversely affects the precision of the mass measurement. To overcome this problem a cooler Penning trap (CPET) was designed, assembled and is now being tested off-line. This thesis presents the first systematic test results of CPET. We also present the result of the first Penning trap mass measurement of the isotope 24Al, which is five times more precise than the previous atomic mass evaluation (AME2012) value. The precise and accurate mass of 24Al is important for both astrophysics and for test of the standard model (SM). The resonance energy (E_r) calculated for the 23Mg(p,gamma)24Al reaction using the ground state mass of 24Al reported in this thesis shows a 2s deviation from the direct measurement. On the other hand, tests of the SM by evaluating f_t values using isospin T = 1 nuclides have reached a high precision level. Effort is now shifting towards the T = 2 nuclides, which are far from stability compared to their T = 1 counterparts. For this reason, the ground state masses of T = 2 nuclides and of their decay products are required to be known with high precision. 24Al is the daughter of one such nucleus, 24Si. The ground state mass of 24Al reported in this thesis will be useful to test the SM. / October 2016 TITAN CPET MPET Precision mass measurement Cooler trap Diocotron mode non-neutral electron plasma Standard model r-process Ultra high vacuum baking Control system LabVIEW

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