Global ETD Search

131	Prototyping and manufacturing of air-controlled damper unit to improve cooling system operating efficiency for data centers Nilsson, Peter January 2023 (has links) More and more people are using the internet for data processing, transfer, and storage. With it comes a higher demand for computational power from data servers. Unsurprisingly, the data center industry is becoming an increasingly large industry that is important for people’s daily lives. Data centers cover 2 % of the world’s total electrical consumption and this number is expected to become higher. Running data centers with optimal performance while operating efficiently and as sustainably as possible is a task that is of utmost importance.The way data centers are cooled today is through a CRAH unit that features cooling coils and a fan, the fan blows air over cold coils to prevent damage to server components. Another task for this fan is to create a high differential pressure over the servers using this air, to ensure the air flows in the right direction. The air is uniformly distributed over the servers. With dynamic air-handling measures, it is possible to match the cooling for individual servers, because all servers have different workloads. They generate different amounts of heat. This thesis investigates manual redistribution between servers and how an air-handling damper unit, that sits on the server, is designed to investigate how it can reduce total power draw. Different tests are run in a wind tunnel which houses room for six servers whereas three prototypes are mounted on three of the servers. The main idea to test is that instead of running an even amount of stress on six servers, the same amount of stress is redistributed on only three servers. The ones now running idle have a damper unit blocking the server's rear side. That way the CRAH fan is using less power to create the same differential pressure. Also, the total power draw to all servers is reduced as well. One of the tests was the conventional way of cooling servers today and it had a total power draw of 1362 watts. The test with both redistribution, dampers closed at the rear and turned off servers had a power draw of 951 watts. That is a 30% decrease. data center cooling server design efficiency model design holistic cooling cooling system air cooling differential pressure wind tunnel CRAH datacenter luftkylning modell design CRAH kylning tryck vindtunnel server Energy Engineering Energiteknik
132	Möjligheter för regnvatteninsamling i industri : Fallstudie på Sandvik AB:s industriområde i Sandviken / Opportunities for rainwater harvesting within industry : A case study of Sandvik AB:s site in Sandviken Engvall, Tove January 2021 (has links) Regnvatteninsamling för olika syften är väl utbrett världen över och har blivit allt mer populärt i takt med ett förändrat klimat. Idag används regnvatten på många håll till hushållsanvändning men intresset har även ökat inom industrisektorn. Syftet med examensarbetet var att undersöka möjligheterna för att samla in och lagra regnvatten samt ersätta dricksvatten i Sandvik AB:s kylsystem. Detta genomfördes dels genom att undersöka vilka tillstånd som krävs för att samla in regnvatten, dels genom att föreslå en magasinutformning, storlek samt lokalisering av denna utifrån flödesberäkningar och dels genom att undersöka hur temperaturen förändras hos regnvatten i ett magasin för att bedöma dess funktion som kylvatten. I studien har först flödesberäkningar med avseende på effektivitet (hur mycket regnvatten som kan ersätta dricksvatten) simulerats för en nederbördsfattig, nederbördsrik respektive genomsnittlig tidsperiod. Därefter konstruerades två modeller i HYDRUS-1D, vilka representerade regnvattenmagasin med omgivande jord vid en lodrätt och en horisontell värmetransport. Enligt studien bedöms verksamheten idag ha alla tillstånd som krävs och behöver inte några ytterligare tillstånd. Valet av magasin blev ett avsättningsmagasin under mark med hänsyn till lokala förutsättningar. Hela anläggningen kan maximalt nå en effektivitet på 44 % under ett nederbördsrikt år med dagens totala förbrukningsdata för dricksvatten i kylsystemet samt totala takytan. Jämförelsen mellan olika lokaliseringar inom anläggningen ledde till att Stålverk 64 föreslogs samt presenterades närmare och utifrån dess effektivitet valdes magasinstorleken 1500 m3 för de 30 000 m2 som Stålverk 64 har i takyta. Effektiviteten för Stålverk 64 blev under ett nederbördsrikt år 77 %, ett genomsnittligt år 64 % och under ett nederbördsfattigt år 54 %. Värmesimuleringarna visade på att det är ytterst få dygn om året som regnvatten som lagras i ett avsättningsmagasin riskerar att vara för varmt för att användas som kylvatten. Slutsatsen är att Sandvik AB har goda möjligheter att samla in regnvatten för att ersätta dricksvatten i kylsystemet men behöver utveckla större lagringsmöjligheter för att uppnå en ännu högre effektivitet. / Rainwater harvesting is used for different purposes all over the world and has increased in popularity in line with climate change. Rainwater is today widely used for households, but interest has also increased within the industrial sector. The aim with this thesis was to investigate rainwater harvesting as a substitute for the use of drinking water in Sandvik´s cooling system. This was examined by investigating legislation concerning rainwater harvesting, different designs and sizes of storage systems and locations that would be suitable for storing rainwater. Also, temperature changes in a rainwater storage system were examined to estimate rainwater´s use for cooling. Firstly, calculations of water flow were simulated with respect to efficiency (how much rainwater that can substitute for drinking water) for three periods with different amounts of precipitation. Secondly, two models were implemented in HYDRUS-1D to represent a storage system for rainwater with surrounding soil with a vertical and horizontal heat transport. The results indicate that the industry has required permits for rainwater harvesting. Taking local conditions into account, an underground storage was chosen to store the rainwater. The entire facility can have a maximum efficiency of 44 % during a year with a high amount of precipitation with the total roof area and today’s consumption of drinking water in the cooling system. A comparison between different locations within the facility resulted in a more specific presentation of Stålverk 64 with respect to its efficiency; 1500 m3 was proposed as the storage size for the roof area of 30 000 m2. The efficiency for Stålverk 64 varied between 54-77 % for years with different amounts of precipitation. Simulated heat transport demonstrated that the risk for excessive water temperatures in an underground storage was low and with elevated temperatures occurring only a couple of days per year. The conclusion is that Sandvik AB has good opportunities for rainwater harvesting to substitute drinking water in the cooling system but need to develop higher capabilities for storage systems to achieve higher efficiency. rainwater harvesting within industry stormwater reservoir precipitation temperature flow cooling system cooling water water quality heat transport regnvatteninsamling inom industri dagvattenmagasin nederbörd temperaturflöden i mark kylsystem kylvatten vattenkvalitet värmetransport Water Engineering Vattenteknik
133	Etude des échanges thermiques et conception d’un système de refroidissement pour le système de lecture du trajectographe SciFi de LHCb / Study of thermal exchanges and design of a cooling system for the LHCb SciFi tracker reading system Hamrat, Sonia 13 December 2017 (has links) Dans le cadre de l’évolution du plus grand accélérateur circulaire de particules « LHC », un important programme de mise à niveau sur l’ensemble des détecteurs qui le constitue a été lancé. Parmi eux, on retrouve la mise à niveau du détecteur LHCb qui comprend le remplacement complet de plusieurs sous-détecteurs. La fréquence de lecture élevée de 40MHz, sans précédent dans une expérience de physique des particules, et l’environnement de rayonnement sévère lié à l’augmentation de l’intensité du LHC, sont les principaux défis à relever par les nouveaux sous-détecteurs. Le travail présenté dans ce manuscrit, décrit une petite partie de l’évolution du détecteur LHCb. Le développement et la construction d’un nouveau trajectographe à grande échelle, basé sur une nouvelle technologie à fibres scintillantes «SciFi», lues avec des photomultiplicateurs au silicium «SiPM», est l’un des projets clés du programme de mise à niveau de LHCb. La première partie, consiste à étudier les échanges thermiques et à concevoir un système de refroidissement pour chaque Read-Out Box « ROB » qui contient deux cartes électroniques frontales « FE », et qui permettent de lire les données du détecteur. Ces dernières possèdent une dissipation thermique d’environ 110W.Pour assurer le bon fonctionnement des composants électroniques, il est obligatoire de mettre en place un refroidisseur. Des contraintes importantes sont prisent en compte dans cette étude, la première représente l’espace limité en regard du besoin du système de refroidissement, des interfaces électroniques et mécanique, la seconde concerne les SiPM. Reliés à l’électronique par des câbles flexibles, elles sont situées à proximité de l’électronique « FE » et leur température de fonctionnement doit être parfaitement réglée autour des -40°C. Des travaux de simulations numériques sur les logiciels FloTHERM et ANSYS ont été menés sur le banc expérimental réalisé au sein du laboratoire, et qui nous ont permis de déterminer la solution de refroidissement la mieux adaptée. Cette étude nous a aussi montré qu’il est plus que nécessaire d’intégrer des interfaces thermiques « IT» telles que des pâtes thermiques afin d’assurer un meilleur transfert de chaleur entre les composants électroniques et le refroidisseur. La deuxième partie, représente une étude approfondie sur les interfaces thermiques qui sont un point délicat de transfert de chaleur, car elles peuvent avoir plusieurs dizaines de pour cent de la résistance thermique globale. Pour garantir une utilisation adéquate et durable de ces matériaux, plusieurs paramètres ont été vérifiés, en particulier la dureté, la consistance (pas de production de graisse ou d’huile) et la conductivité thermique, grâce à un banc de mesures adapté d’après la méthode normalisé ASTM D5470, grâce auquel on a pu mesurer le flux de chaleur qui traverse l’échantillon d’interface thermique testé et qui est généré par une source chaude et un source froide qui sont montées aux extrémités de notre banc.Grâce à l’installation CHARME (CERN) et à la plate-forme PAVIRMA (Campus des Cézeaux), une série de mesure d’irradiations aux neutrons et aux rayons X sont également effectuées, correspondant à l’environnement dans lequel elles seront exposées dans l’expérience, d’un côté pour identifier les dégradations et changements possibles sur les résistances thermiques par l’analyse de l’impédance thermique, de l’autre pour identifier l’interface thermique qui convient le mieux à notre application et qui permet d’assurer un excellent échange thermique et donc un bon refroidissement de l’électronique frontale au sein du trajectographe du détecteur LHCb. / In the context of the evolution of the biggest circular accelerator of particles «LHC», an important program of upgrade on all the detectors which establishes itself was thrown. Among them, we find the upgrade of the detector LHCb which includes the complete replacement of several sub-detectors. The frequency of high reading of 40MHz, an unprecedented in an experiment of physical appearance of particles, and the environment of severe radiation bound to the increase of the intensity of the LHC, are the main challenges by the new sub-detectors. The work presented in this manuscript, described as a small part of the evolution of the LHCb detector. The development and the construction of a new wide-scale tracker, based on a new technology with scintillating fiber «SciFi», read with photomultipliers to the silicon «SiPM», is one of the key projects of the LHCb upgrade program. The first part, consists in studying the thermal exchanges and designing a cooling system for every Read-Out Box «ROB» which contains two electronic front-end « FE », and which allow to read the data of the detector. The latter has a thermal dissipation about 110W. To ensure the smooth running of electronic components, it is compulsory to set up a cooler. Important constraints are taken into account in this study, the first one represents the space limited compared to the need for the cooling system, the electronic interfaces and mechanical, the second concerns the SiPM. Connected with the electronics by flexible cables, they are located near the electronics «FE» and their temperature of operation is perfectly settled around -40 ° C. Works of digital simulations on the software FloTHERM and ANSYS were led on the experimental bench realized within the laboratory, and which allowed us to determine the best adapted solution of cooling. This study also showed to us that he is more than necessity to integrate thermal interfaces «IT» such as thermal pastas to assure a better transfer of heat between electronic components and cooler. The second part, represents an in-depth study on the thermal interfaces which are a delicate point of transfer of heat, because they can have dozens percent of the global thermal resistance. To guarantee an adequate and sustainable use of these materials, several parameters were verified, in particular hardness, consistency (no production of fat or oil) and the thermal conductivity, thanks to a bench of measures adapted according to the method normalized ASTM D5470, with this bench we could measure the flow of heat through the tested thermal interface sample and which is generated by a hot source and a cold source that are mounted at the ends of our bench.With the installation CHARME (CERN) and PAVIRMA (Cézeaux), a series of measure of irradiations at the neutrons and the X-rays are also made, correspond-ing to the environment in which they will be exposed in the experience, on one side to identify the damages and the possible changes on the thermal resistances by the analysis of the thermal impedance, the other one to identify the thermal interface which suits best our application and which allows to assure an excellent thermal exchange and thus a good cooling of the frontal electronics within the trajectographe of the detector LHCb. Étude Thermique Simulation Thermique FloTHERM ANSYS Système de Refroidissement Refroidissement à Eau Interface Thermique Conductivité Thermique Caractérisation Statique Thermique Thermal Study Thermal Simulation FloTHERM ANSYS Cooling System Water Cooling Thermal Interface Thermal Conductivity StaticThermal Characterization Interfacing Materials Degradation
134	Auxiliary Heater for Natural Gas Trucks Karlgren Johansson, Mikael, Leong, Kevin January 2017 (has links) As alternative fuels are becoming more common, technologies need to adjust to them. Natural gas is one of the alternative fuels that has grown during the latest years in the transport sector. Natural gas consists of around 97 % methane and is the cleanest fossil fuel. The use of natural gas can make it easier to transition to biogas as it has equivalent properties. Today Scania CV AB's trucks fuelled by natural gas are using auxiliary cabin heaters driven by diesel. This means that the natural gas trucks have two fuels on-board the truck. The goal of this project is to find a concept to eliminate the diesel fuel and replace it with an auxiliary cabin heater driven by another energy source. It will improve the heating solution and make it superior from an environmental perspective. The result of the project lead to a short-term solution with an auxiliary heater fuelled by natural gas. A long-term solution is to have a cooperation with a manufacturer to develop a better natural gas auxiliary heater that fulfils more of the requirements in the technical specification. An experiment plan is devised to test parameters out of reach of the project. auxiliary heater natural gas biogas LNG CNG LBG CBG truck thermal comfort heating BOG boil-off gas boil off gas water to air WTA ATA air to air water-to-air air-to-air climate system HVAC fuel system water system cooling system Vehicle Engineering Farkostteknik
135	Matériaux multicaloriques : Application à de nouveaux systèmes de refroidissement / Multicalorics materials : Application for new cooling systems Russo, Florence 05 November 2015 (has links) Le domaine du refroidissement est en constante expansion, le système actuel est basé sur la compression/décompression des fluides. Face aux problèmes environnementaux et économiques que ce système présente (natures des fluides frigorigènes et leurs recyclages, nuisances sonores et vibratoires, réglementations contraignantes), de nouvelles solutions techniques alternatives émergent. Ainsi ce travail de thèse porte sur de nouveaux systèmes de refroidissement basés sur les effets électrocalorique et magnétocalorique, respectivement présents dans des films minces de polymère fluoré et dans des composites à matrice polymère et à charges magnétocaloriques. A travers des caractérisations physico-chimiques, électriques, électrocaloriques et magnétocaloriques ces travaux se proposent d’identifier l’origine de l’effet électrocalorique dans des films minces de terpolymère P(VDF-TrFE-CTFE) ferroélectrique relaxeur, mais également d’étudier l’influence de la dispersion des particules magnétocaloriques La(Fe,Si)H dans une matrice polymère de poly(propylène) sur le phénomène magnétocalorique. De plus, dans le cadre de cette thèse, un appareil de mesure directe de l’effet électrocalorique a été développé avec le Dr. Basso de l’INRIM de Turin. La comparaison avec la méthode de mesure indirecte permet d’aborder ce phénomène d’un point de vue thermodynamique afin de faire le point sur la validité des hypothèses thermodynamiques utilisées dans le cas d’un polymère ferroélectrique relaxeur. / The cooling sector is in constant expansion, the current system is based on the compression/decompression of fluids. In front of environmental and economic problems of this system (nature of frigorigen fluids and their recycling, noise and vibration issues, restrictive regulations), new alternative technological solutions emerge. Thus this thesis provides new cooling systems based on the magnetocaloric and electrocaloric effects respectively present in thin films of fluoropolymer and composites with polymer matrix and magnetocaloric loads. Through physicochemical, electrical, electrocaloric and magnetocaloric characterizations, this work intends to identify the origin of electrocaloric effect in thin terpolymer films P(VDF-TrFE-CTFE) which is a ferroelectric relaxor, but also to study the influence of the magnetocaloric particles La(Fe,Si)H dispersion in a polymer matrix of poly(propylene) on the magnetocaloric phenomenon. In addition, as part of this thesis, a direct measurement device of the electrocaloric effect was developed with Dr. Basso from the INRIM of Turin. The comparison with the indirect measurement method comes up with this phenomenon from a thermodynamic point of view to take stock of the validity of thermodynamic assumptions used in the case of a ferroelectric polymer relaxor. Materiau électrocalorique Matériau magnétocalorique Composite à matrice polymère Film mince Terpolymère fluoré Matrice polypropylène Particule magnétocalorique La(Fe,SI)H Effet électrocalorique Effet magnétocalorique Application industrielle Système de refroidissement Electrocaloric material Magnetocaloric material Polymer matrix composite Thin film Fluorinated terpolymer Polypropylene matrix Magnetocaloric particle La(Fe,SI)H Electrocaloric effect Magnetocaloric effect Cooling system 620.192 118 072
136	Budova občanské vybavenosti / Civic amenities building Brázdová, Kateřina January 2022 (has links) Mixed-use building in Prostějov The aim of this master´s thesis is to elaborate the project documentation of a mixed-use building in Prostějov. The thesis consists of three parts: architectural-construction part, building services and elective part. The building has two above-ground floors. On the first floor there are storerooms, utility room, sanitary facilities and restaurant with kitchen and storerooms. The second floor is an office floor for one company which includes offices, dayroom, copyroom, meeting room and sanitary facilities. The building is founded on reinforced concrete foundation. The horizontal load-bearing and non-load-bearing structures are designed from ceramics blocks. The building is insulated by ETICS. The vertical load-bearing structures are designed from Spiroll slabs. The building has a green flat roof. There are parking spaces on the grounds. The building will be heated and cooled with a heat pump. It will also have an air condition. Part of electricity demand is covered by photovoltaics. In the third part of thesis, I replace frequently used materials with environmental ones in my project and compare them in terms of thermal engineering, acoustics and price. I used DEKSOFT, Hluk+, Autocad and Revit software. All structures comply with the valid standards and regulations.
137	Revitalizace víceúčelového objektu obce / Revitalization of a multi-purpose building in the village Federla, Jakub January 2022 (has links) The aim of master‘s thesis is to renovate old agricultural building and design it as nzeb building. The thesis contains three parts: 1st – design of the building, 2nd – design of building services, and 3rd – assessment of the impact of different operations in building on energy consumption. The results are then evaluated for economic and environmental savings. The renovated building in village Rozkoš will be used for many purposes. It will be divided into 3 parts – a multifunctional hall, a pub, and a club room. Multifunctional hall will be used for various activities for village itself or public. In the pub will be only cold kitchen with small dishes and beverages. Club room can be used for elderly people, workout or young people. The building is low rise and structural system is combined. The vertical load-bearing walls and columns are built of bricks. Horizontal load-bearing structures are cross vaults made also of bricks. Saddle roof is made of timber roof truss. The building site contains also an outdoor car park and a garden. The project was carried out in the Revit.
138	Adaptive Cooling Water Control for Sterilizers Dugonic, Mladen, Banjac, Sofia January 2023 (has links) This thesis was conducted with the objective of reducing water consumption byoptimizing the cooling systems of steam sterilizers. As water is a precious resourcewith great environmental effects, it is important not to waste it. Consequently, thereis a need for a more resource-efficient cooling water system. The project focuses onthe development of a system that more efficiently regulates the cooling water utilization by optimizing temperatures. The goal of the project is to achieve a 20% reduction in water consumption of the GSS-91413 model steam sterilizer manufacturedby Getinge. In order to achieve the goal, changes were made to the cooling systemand control logic of the cooling system. By integrating a proportional valve at theoutlet of the cooling system, the system was pressurized with the coolant resultingin greater energy transfer between the condensate and the coolant. The developedcontrol logic incorporates process data combined with an equation-based approachthat utilizes temperature data to adjust the proportional valve leading to increasedcontrol of the flow of the coolant. As a result, the overall water consumption of thesystem was reduced by more than 50% while the maximal temperature of the systemdid not rise more than 1.5%. / Detta examensarbete genomfördes med målet att minska vattenförbrukningen genom att optimera kylsystemen i autoklaver. Eftersom vatten är en värdefull resursmed stora miljöeffekter är det viktigt att den inte slösas. Följaktligen finns ett behovav ett mer resurseffektivt kylvattensystem. Projektet fokuserar på utveckling av ettsystem som mer effektivt reglerar kylvattenutnyttjandet genom att optimera temperaturer. Målet med projektet är att uppnå en 20-procentig minskning av vattenförbrukningen för autoklavmodellen GSS-91413 tillverkad av Getinge. För att nå måletgjordes ändringar i kylsystemet och i kylsystemets styrlogik. Genom att integrera enproportionell ventil vid utloppet av kylsystemet trycksattes systemet med kylvätskanvilket resulterade i större energiöverföring mellan kondensatet och kylvätskan. Denutvecklade styrlogiken inkorporerar processdata kombinerat med ett ekvationsbaserat tillvägagångssätt som använder temperaturdata för att justera proportionalventilen vilket leder till ökad kontroll av kylvätskans flöde. Som ett resultat minskade dentotala vattenförbrukningen i systemet med mer än 50% medan systemets maximalatemperatur inte steg mer än 1.5%. Autoclave Sterilizer Control Control System GSS-91413 Getinge Sterilization AB Cooling System Adaptive Control Autoklav Kylsystem Adaptiv Kontroll Reglerteknik Control Engineering Reglerteknik Övrig annan teknik Software Engineering Programvaruteknik Computer Engineering Datorteknik Algebra and Logic Algebra och logik Mathematical Analysis Matematisk analys Applied Mechanics Teknisk mekanik
139	Разработка системы интеллектуального анализа температуры холодильников системы охлаждения доменной печи : магистерская диссертация / Development of a system for refrigerators temperature intelligent analysis of the blast furnace cooling system Саидмуродов, Б. Р., Saidmurodov, B. R. January 2023 (has links) Магистерская диссертация посвящена разработке программного обеспечения интеллектуальной системы анализа температуры холодильников системы охлаждения доменной печи. В ходе работы рассмотрены основные этапы реализации программного модуля: анализ предметной области, функциональное моделирование, проектирование и программная реализация web-приложения. Разработанная система предоставляет пользователю возможность отображения данных о температуре в графическом и табличном виде, а также проведение анализа и прогнозирования температуры тела холодильника в доменной печи. Она позволяет оперативно мониторить и контролировать температурные показатели, что является важным фактором для обеспечения эффективности и надежности работы печи. Научная новизна полученных в работе результатов заключается в разработке методов эффективной организации, ведения процесса разработки и сопровождения специализированного информационного, алгоритмического и программного обеспечения, включая базу данных доменного цеха и пользовательское приложение системы интеллектуального анализа температуры холодильников системы охлаждения доменной печи: использование гибкой методологии разработки (Agile, SCRUM) и таск-трекера Microsoft Azure DevOps для ведения проекта, взаимодействия с заказчиком во время разработки, отслеживания ошибок, визуального отображения задач и мониторинга процесса их выполнения; функциональное моделирование процессов и подсистем для реализации web-приложения подготовки технического отчета доменного цеха на основе методологии IDEF0 и средства реализации Ramus Educational; использование методики коллективного владения программным кодом на основе сервиса (удаленного репозитория) GitHub; применение методов машинного обучения для реализации алгоритма прогнозирования температуры холодильников системы охлаждения доменной печи. Практическая значимость результатов заключается в том, что разработанное программное обеспечение позволит: программное обеспечение позволит сэкономить время на получение, хранение, обработку данных, что положительно скажется на эффективности работы доменного производства, поможет снизить риск возникновения аварийных ситуаций и неплановых остановок доменных печей; специалистам отдела сопровождения информационных систем снизить трудозатраты на сопровождение, совершенствование и развитие системы с учетом пожеланий пользователей. Результаты работы могут быть использованы также в учебном процессе для обучения бакалавров и магистрантов по направлению «Информационные системы и технологии». Результаты работы представлены и обсуждены на международных и всероссийских конференциях: X, XI Всероссийских научно-практических конференциях студентов, аспирантов и молодых учёных «Теплотехника и информатика в образовании, науке и производстве» (ТИМ’2022, ТИМ’2023) с международным участием (г. Екатеринбург, УрФУ, 2022, 2023); Всероссийской научно-практической конференции (с международным участием) «Системы автоматизации (в образовании, науке и производстве)» AS’2022 (г. Новокузнецк, СибГИУ, 2022); международной научно-технической конференции «Состояние и перспективы развития электро и теплотехнологии» XXII Бенардосовские чтения (г. Иваново, ИГЭУ, 2023). / The master's thesis is devoted to the development of software for an intelligent system for analyzing the temperature of refrigerators in the blast furnace cooling system. In the course of the work, the main stages of the implementation of the software module were considered: domain analysis, functional modeling, design and software implementation of a web application. The developed system provides the user with the ability to display temperature data in graphical and tabular form, as well as to analyze and predict the body temperature of the refrigerator in the blast furnace. It allows you to quickly monitor and control temperature indicators, which is an important factor for ensuring the efficiency and reliability of the furnace. The scientific novelty of the results obtained in the work lies in the development of methods for the effective organization, management of the development process and maintenance of specialized information, algorithmic and software, including the database of the blast furnace shop and the user application of the system for intelligent temperature analysis of the refrigerators of the blast furnace cooling system: − use of flexible development methodology (Agile, SCRUM) and the Microsoft Azure DevOps task tracker for project management, interaction with the customer during development, tracking errors, visual display of tasks and monitoring the progress of their implementation; − functional modeling of processes and subsystems for the implementation of a web application for preparing a technical report for a blast furnace shop based on the IDEF0 methodology and the Ramus Educational implementation tool; − use of the methodology of collective ownership of program code based on the service (remote repository) GitHub; − application of machine learning methods to implement an algorithm for predicting the temperature of refrigerators in the blast furnace cooling system. The practical significance of the results lies in the fact that the developed software will allow: − the software will save time for receiving, storing, processing data, which will have a positive impact on the efficiency of blast-furnace production, help reduce the risk of emergencies and unscheduled shutdowns of blast furnaces; - specialists of the information systems maintenance department to reduce labor costs for maintenance, improvement and development of the system, taking into account the wishes of users. The results of the work can also be used in the educational process for training bachelors and masters in the direction of "Information Systems and Technologies". The results of the work are presented and discussed at international and all-Russian conferences: X, XI All-Russian scientific and practical conferences of students, graduate students and young scientists "Heat engineering and informatics in education, science and production" (TIM'2022, TIM'2023) with international participation (Ekaterinburg, UrFU, 2022, 2023); All-Russian scientific and practical conference (with international participation) "Automation systems (in education, science and production)" AS'2022 (Novokuznetsk, SibGIU, 2022); International Scientific and Technical Conference "Status and Prospects for the Development of Electrical and Thermal Technologies" XXII Benardos Readings (Ivanovo, ISPU, 2023). ДОМЕННАЯ ПЕЧЬ БАЗА ДАННЫХ МАШИННОЕ ОБУЧЕНИЕ MASTER'S THESIS BLAST FURNACE COOLING SYSTEM AUTOMATED WORKSPACE BLAST FURNACE DATABASE MACHINE LEARNING SOFTWARE
140	地球環境保全型建築・都市の環境・エネルギ-システムに関する研究中原, 信生, 坂本, 雄三, 久野, 覚, 伊藤, 尚寛, 鄭, 明傑, 山羽, 基, 奥宮, 正哉 03 1900 (has links) 科学研究費補助金研究種目:一般研究(A) 課題番号:03402043 研究代表者:中原信生研究期間:1991-1994年度温熱環境氷蓄熱地域熱供給 CO_2削減未利用エネルギ- 意識調査ヒ-トアイランドソ-ラシステムソ-ラ-システムシステムシミュレ-ション Ice storage District heating and cooling system Survey of consciousness 地域冷暖房 Human responses Heat Island Unused energy 季節順応太陽電池 Solar system 住民意識調査長期蓄熱 CO2 reduction

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