Zařízení pro měření tepelného odporu rukavic / Apparatus for measuring the thermal resistance of the gloves

Pelikán, Jakub

January 2016

This thesis deals with common problem health protection at work. Namely hand protection during the work in very cold environment. It’s an analysis of materials suitable for apparatus used for measuring the thermal resistance of the gloves. There was analysed a range of materials. Every single sample was tested for heat conductivity and afterwards was assessed the suitability of materials. Heat was generated by electricity. Ocured heat fields was assessed with thermocamera. After performed experiments of carbon fiber we haven’t reached any satisfying results which we could use for manufacturing of this device. On the other hand kapton film has given very interesting results which we would recommend eventually. Kapton film needs to be modify according to the method listed in the conlusion. This thesis gives us a clear overview and inspiration for additional research of this device. It finds it’s place in research facilities and companies manufacturing protective clothing.

Thermal and oxidation resistant barrier on carbon fiber with Si and Si–Ti based pre-ceramic coatings for high temperature application

Shayed, Mohammad Abu, Hund, Heike, Hund, Rolf-Dieter, Cherif, Chokri

18 September 2019

Carbon fiber (CF) must be protected from thermal oxidation for high temperature application because of its low thermo-oxidative stability above 450°C in air. CF is now increasingly being used as a reinforcing material in the construction industry. A thermal and oxidation resistant coating is necessary for CF-reinforced concrete (CFRC) composites in order to satisfy a high level of safety standard in the case of fire. New types of pre-ceramic coatings, such as Tyranno® polymer (Si–Ti based pre-ceramic) and SiO₂ sol–gel, have been deposited on CF filament yarn by means of a wet chemical continuous dip coating method. The results of surface analyses, e.g. scanning electron microscopy, X-ray photoelectron spectroscopy, and infrared spectroscopy, showed the changes in topographical properties of CF caused by the coatings. Thermogravimetric analysis proved that the high temperature (up to 800°C) oxidation stability of CF was considerably improved due to the coatings. Tensile test results indicated that the strength of CF yarn at 20°C was increased by up to 80% with the coatings. Thermo-mechanical properties were also enhanced up to 600°C. CF yarn retains its original strength and elasticity modulus, i.e. the stiffness at 700°C, with a Tyranno® polymer coating.

info:eu-repo/classification/ddc/660

ddc:660

info:eu-repo/classification/ddc/670

ddc:670

Effective Thermal Resistance of Commercial Buildings Using Data Analysis of Whole-Building Electricity Data

Wang, Tian

04 June 2020

No description available.

Mechanical Engineering

effective thermal resistance

R-value

thermal transmittance

U-value

building envelope

windows

15-minute interval electricity data

data mining

data analysis

energy conservation measures

Dřevostavby s použitím přírodních tepelných a zvukových izolací / Wooden buildings using natural thermal and acoustic insulation

Ambrožová, Elena

January 2016

Dissertation deals with the technical parameters of natural thermal insulation. In addition, there is a global trend in the construction of reducing energy consumption for heating, air conditioning, or with operating facilities in buildings and the use of perspective and efficient building materials with a negligible negative impact on the environment. Therefore, the attention not only professionals are increasingly turning to alternative materials, such as natural insulation, the material can be drawn from local sources and whose production is energy-saving and leaving a small ecological footprint. As part of the doctoral thesis were tested short term water absorption, measurements were made of the thermal conductivity and its change after the test short term water absorption. Was determined dependence of thermal conductivity on humidity and heat resistance was determined. Moreover a natural insulation applications in building construction with a comparison of the various technical parameters and environmental footprint. At the conclusion was made by acoustic insulation in timber construction and price analysis.

Numerical Tool for Thermal Analysis of Space Computers / Numeriskt Analysverktyg för Termisk Design av Rymddatorer

Hamad, Baran

January 2023

This master thesis addresses the development of an automatic numerical tool for thermal analysis, focusing on thermal systems comprising a printed circuit board assembly and cooling case structure. The project, conducted in collaboration with Unibap, aims to enhance the design process of space computer modules by automating middle steps between design software and thermal analysis results. The numerical tool employs the lumped parameter method, implemented in Python, as an alternative to traditional finite element analysis to efficiently generate thermal results. Informed decisions can be made using the tool regarding case-cooling and the selection of components requiring cooling, thus optimizing manufacturing costs and design complexity. The project results in the successful development of the automatic numerical tool. A unique method to derive values for thermal resistance within the case structure is also utilized. Though experimental test results for verification are pending, the functionality of the tool is presented along with results from a thermal analysis where it is used.

thermal

space

thermal analysis

thermal design

space computer

heat transfer

PCB

lumped parameter

lumped element

thermal resistance

termisk

rymd

termisk analys

termisk design

rymddator

värmeöverföring

PCB

lumped parameter

lumped element

termisk resistans

Aerospace Engineering

Rymd- och flygteknik

Estimating Envelope Thermal Characteristics from Single Point in Time Thermal Images.

Alshatshati, Salahaldin Faraj

January 2017

No description available.

Mechanical Engineering

Engineering

Energy

Infrared thermography

Automated energy audit

Energy efficiency

U-value

Thermal Imaging

Data mining

Thermal resistance

R-value

Buildings

Energy audit

Multispectral

Remote thermal imaging

Thermal conductance

Development & Automation of Thermal Resistance Measurement System for Assessment of Thermal Interface Materials

Allahyarbigi, Sepinood

January 2024

Effective heat management is essential for preserving performance and dependability as electronic equipment becomes increasingly powerful and smaller. This project presents the developed system, TeRMeS, which was created to test the thermal resistance of thermal interface materials (TIMs) essential for the thermal management of electronic devices, including battery systems. This work focuses on using steady-state techniques to evaluate TIMs under various operational forces and temperatures in real-world electronic packaging conditions. A noteworthy breakthrough is the creation of a user-friendly graphical user interface (GUI), which offers sophisticated options for real-time thickness measurement and enables researchers to alter parameters and dynamically display outcomes, thereby improving the measuring process. The results of the experiment highlight the importance of TIM thickness and applied force in lowering thermal resistance and increasing thermal conductivity. These elements are necessary to prevent battery packs and electrical parts from overheating. To improve heat management strategies in high-performance computing and electronics, the study provides accurate, reliable data by focusing on steady-state measurements.

Thermal resistance

thermal conductivity

thermal interface materials

steady-state measurement

graphical user interface

heat transfer

applied force

thermal management.

Annan elektroteknik och elektronik

Aplicação da proteína verde fluorescente (GFPuv) como indicador biológico na validação da autoclavação de soluções parenterais e da esterilização por óxido de etileno de itens termolábeis. Comparação com esporos de Bacillus subtilis / Application of fluorescent green protein, GFPuv, as a biologic indicator in the validation of autoclaving of parenteral solutions and ethylene oxide sterilization of thermolabile items. comparison with Bacillus subtilis spores

Ishii, Marina

04 October 2006

A Proteína Verde Fluorescente recombinante, GFPuv, é um sistema marcador atrativo pois, sua presença pode ser visualizada através da intensidade de fluorescência emitida, sem o uso de substratos ou meios complexos. Sendo uma molécula estável à presença de substâncias orgânicas, temperaturas acima de 70°C e ampla faixa de pH, é um potencial Indicador Biológico (IH) para diversas aplicações. A estabilidade térmica da GFPuv, foi avaliada pela medida da perda de intensidade de fluorescência, expressa em valores D (min), tempo de exposição necessário para redução de 90% da intensidade de fluorescência inicial da GFPuv. GFPuv (3,5-9,0 µg/mL), expressa por E. coli e isolada por extração de Partição em Três Fases (TPP) e purificação por Cromatografia de Interação Hidrofóbica (IDC), foi diluída nas soluções parenterais preparadas em tampão (10 mM cada: Tris-EDTA, pH 8; Fosfato, pH 6 e 7, e Acetato, pH 5) e em água para injeção, WFI; pH = 6,70±0,40), e expostas a temperaturas de 25°C e ao intervalo entre 80°C e 100°C. A 95°C, os valores D para a GFPuv em soluções de 1,5% a 50% de glicose variaram de: (i) 1,63 (±0,23) min em acetato pH 5; (ii) 2,64 ± 0,26 min em WFI; (iii) 2,50 ± 0,18 min em fosfato pH 6; (iv) 3,24 ± 0,28 min em fosfato pH 7 e, (v) 2,89 ± 0,44 min em Tris-EDTA pH 8. Cloreto de sódio associado aos tampões proporcionou influência positiva na estabilidade da GFPuv, sendo que em soluções de Tris-EDTA, a adição de 15-20% de NaCl dobrou a estabilidade térmica da GFPuv (valores D de 65,79 min e 18,12 min a 80 °C e 85°C) em relação à solução sem cloreto de sódio. Nos processos de esterilização por óxido de etileno (45°C-60°C), a GFPuv pode ser utilizada como IB para monitorar a distribuição de gás dentro da câmara, pois, apresentou variação na concentração remanescente de até 80%, após processamento, estabelecendo áreas distintas dentro da câmara. No tratamento em autoclave, a GFPuv em solução apresentou resistência térmica em solução de fosfato pH 7,0 (valor F = 2,53 min (± 0,12)). Quando expressa por esporos de Bacillus subtilis, a intensidade de fluorescência emitida por esporos sobreviventes se manteve. A estabilidade térmica da GFPuv atestou sua potencialidade como indicador biológico fluorescente da garantia da eficácia de tratamento de soluções e materiais expostos ao calor. / The recombinant Green Fluorescent Protein, GFPuv is an attractive system marker due to its ability to emit fluorescence when exposed to ultraviolet light, without use of substrates or complex environment. Being a stable molecule even in the presence of organic substances, temperatures above 70°C and wide range of pH, it is a potential Biological Indicator, BI, for many applications, including thermal processes. GFPuv thermal stability was evaluated by the loss of fluorescence intensity expressed in decimal reduction time (D-value, min), the exposure time required to reduce 90% of the GFPuv initial fluorescence intensity. GFPuv (3.5-9.0 µg/mL), expressed by E. coli and isolated by Three Phases Partitioning, TPP extraction with Hidrophobic Interaction Chromatography, HIC, was diluted in buffered solutions (each 10 mM: Tris-EDTA, pH 8; phosphate, pH 6 and 7, and acetate, pH 5) and in water for injection, WFI; pH = 6.70 (± 0.40), and exposed to temperatures of 25°C and between 80°C and 95°C. At 95°C, the D-value for GFPuv in 1.5%-50% glucose, ranged from: (i) 1.63 ± 0.23 min in acetate pH 5; (ii) 2.64 ± 0.26 min in WFI; (iii) 2.50 ± 0.18 min in phosphate, pH 6; (iv) 3.24 ± 0.28 min in phosphate, pH 7, (v) 2.89 ± 0.44 min in Tris-EDTA, pH 8. Sodium cloride provided a positive influence over GFPuv stability. In Tris-EDTA solutions, the addition of 15% and 20% of NaCl doubled the thermal stability of GFPuv (D = 65.79 min and D = 18.12 min at 80°C, and 85°C, respectively, in relation to the solutions without NaCl. For ethylene oxide sterilization processes (45°C-60°C), GFPuv can be used as biological indicator to monitor gas distribution into the chamber. After processing, the protein concentration varied by 80%, showing distinct areas into the chamber. In autoclave, GFPuv in solution showed thermal resistance in phosphate pH 7.0 solution (F-value = 2.53 (± 0.12) min. When expressed by Bacillus subtilis spores, the fluorescence intensity was kept constant after thermal processing. The thermal stability of GFPuv provides the basis for its potential utility as a fluorescent biological indicator to assess the efficacy of the treatment of liquids and materials exposed to steam.

Applied microbiology

Bacillus subtilis

Bacillus subtilis

Biological indicator

D-Value

Ethylene oxide

Fluorescent green protein

GFPuv

GFPuv

Glicose

Glucose

Indicador biológico

Indicadores e reagentes (Avaliação)

Indicators and reagents

Microbiologia aplicada

Óxido de etileno

Parenteral solution

Protein (Green)

Protein (Industrial applications)

Proteína Verde Fluorescente

Proteínas (Aplicações industriais)

Resistência térmica

Solução parenteral

Thermal resistance

Valor D

Aplicação da proteína verde fluorescente (GFPuv) como indicador biológico na validação da autoclavação de soluções parenterais e da esterilização por óxido de etileno de itens termolábeis. Comparação com esporos de Bacillus subtilis / Application of fluorescent green protein, GFPuv, as a biologic indicator in the validation of autoclaving of parenteral solutions and ethylene oxide sterilization of thermolabile items. comparison with Bacillus subtilis spores

Marina Ishii

04 October 2006

A Proteína Verde Fluorescente recombinante, GFPuv, é um sistema marcador atrativo pois, sua presença pode ser visualizada através da intensidade de fluorescência emitida, sem o uso de substratos ou meios complexos. Sendo uma molécula estável à presença de substâncias orgânicas, temperaturas acima de 70°C e ampla faixa de pH, é um potencial Indicador Biológico (IH) para diversas aplicações. A estabilidade térmica da GFPuv, foi avaliada pela medida da perda de intensidade de fluorescência, expressa em valores D (min), tempo de exposição necessário para redução de 90% da intensidade de fluorescência inicial da GFPuv. GFPuv (3,5-9,0 µg/mL), expressa por E. coli e isolada por extração de Partição em Três Fases (TPP) e purificação por Cromatografia de Interação Hidrofóbica (IDC), foi diluída nas soluções parenterais preparadas em tampão (10 mM cada: Tris-EDTA, pH 8; Fosfato, pH 6 e 7, e Acetato, pH 5) e em água para injeção, WFI; pH = 6,70±0,40), e expostas a temperaturas de 25°C e ao intervalo entre 80°C e 100°C. A 95°C, os valores D para a GFPuv em soluções de 1,5% a 50% de glicose variaram de: (i) 1,63 (±0,23) min em acetato pH 5; (ii) 2,64 ± 0,26 min em WFI; (iii) 2,50 ± 0,18 min em fosfato pH 6; (iv) 3,24 ± 0,28 min em fosfato pH 7 e, (v) 2,89 ± 0,44 min em Tris-EDTA pH 8. Cloreto de sódio associado aos tampões proporcionou influência positiva na estabilidade da GFPuv, sendo que em soluções de Tris-EDTA, a adição de 15-20% de NaCl dobrou a estabilidade térmica da GFPuv (valores D de 65,79 min e 18,12 min a 80 °C e 85°C) em relação à solução sem cloreto de sódio. Nos processos de esterilização por óxido de etileno (45°C-60°C), a GFPuv pode ser utilizada como IB para monitorar a distribuição de gás dentro da câmara, pois, apresentou variação na concentração remanescente de até 80%, após processamento, estabelecendo áreas distintas dentro da câmara. No tratamento em autoclave, a GFPuv em solução apresentou resistência térmica em solução de fosfato pH 7,0 (valor F = 2,53 min (± 0,12)). Quando expressa por esporos de Bacillus subtilis, a intensidade de fluorescência emitida por esporos sobreviventes se manteve. A estabilidade térmica da GFPuv atestou sua potencialidade como indicador biológico fluorescente da garantia da eficácia de tratamento de soluções e materiais expostos ao calor. / The recombinant Green Fluorescent Protein, GFPuv is an attractive system marker due to its ability to emit fluorescence when exposed to ultraviolet light, without use of substrates or complex environment. Being a stable molecule even in the presence of organic substances, temperatures above 70°C and wide range of pH, it is a potential Biological Indicator, BI, for many applications, including thermal processes. GFPuv thermal stability was evaluated by the loss of fluorescence intensity expressed in decimal reduction time (D-value, min), the exposure time required to reduce 90% of the GFPuv initial fluorescence intensity. GFPuv (3.5-9.0 µg/mL), expressed by E. coli and isolated by Three Phases Partitioning, TPP extraction with Hidrophobic Interaction Chromatography, HIC, was diluted in buffered solutions (each 10 mM: Tris-EDTA, pH 8; phosphate, pH 6 and 7, and acetate, pH 5) and in water for injection, WFI; pH = 6.70 (± 0.40), and exposed to temperatures of 25°C and between 80°C and 95°C. At 95°C, the D-value for GFPuv in 1.5%-50% glucose, ranged from: (i) 1.63 ± 0.23 min in acetate pH 5; (ii) 2.64 ± 0.26 min in WFI; (iii) 2.50 ± 0.18 min in phosphate, pH 6; (iv) 3.24 ± 0.28 min in phosphate, pH 7, (v) 2.89 ± 0.44 min in Tris-EDTA, pH 8. Sodium cloride provided a positive influence over GFPuv stability. In Tris-EDTA solutions, the addition of 15% and 20% of NaCl doubled the thermal stability of GFPuv (D = 65.79 min and D = 18.12 min at 80°C, and 85°C, respectively, in relation to the solutions without NaCl. For ethylene oxide sterilization processes (45°C-60°C), GFPuv can be used as biological indicator to monitor gas distribution into the chamber. After processing, the protein concentration varied by 80%, showing distinct areas into the chamber. In autoclave, GFPuv in solution showed thermal resistance in phosphate pH 7.0 solution (F-value = 2.53 (± 0.12) min. When expressed by Bacillus subtilis spores, the fluorescence intensity was kept constant after thermal processing. The thermal stability of GFPuv provides the basis for its potential utility as a fluorescent biological indicator to assess the efficacy of the treatment of liquids and materials exposed to steam.

Bacillus subtilis

GFPuv

Glicose

Indicador biológico

Indicadores e reagentes (Avaliação)

Microbiologia aplicada

Óxido de etileno

Proteína Verde Fluorescente

Proteínas (Aplicações industriais)

Resistência térmica

Solução parenteral

Valor D

Applied microbiology

Bacillus subtilis

Biological indicator

D-Value

Ethylene oxide

Fluorescent green protein

GFPuv

Glucose

Indicators and reagents

Parenteral solution

Protein (Green)

Protein (Industrial applications)

Thermal resistance

HotHumiBox, ett provelement mellan två kammare / HotHumiBox, a test element between two chambers

Lekic, Dragan

January 2018

HotHumiBox är en försöksutrustning som finns på Linnéuniversitetet och som ska ge bättre kunskap och förståelse om hur fukt och temperatur varierar i en provkropp monterad mellan två kammare där klimatet kan styras var för sig. Syftet med examensarbetet är att undersöka om HotHumiBoxen fungerar väl och huruvida den kan börja användas i undervisningen i olika kurser inom institutionen för byggteknik på Linnéuniversitetet, bl.a. i samband med demonstrationslaborationer vid föreläsningar om fukt. För att genomföra arbetet har mätningar med tre olika klimat utförts på ett provelement som motsvarar en yttervägg som kan finnas i nybyggda typhus. Resultatet av mätningar utförda med HotHumiBoxen presenteras i form av tabeller och diagram och jämförs slutligen med beräkningar av fukt- och temperaturtillstånd. Jämförelsen mellan mätningar och beräkningar visar att givarna som styr klimatet i båda kamrarna visar mycket bra resultat. Däremot visar majoriteten av givarna i provelementet antingen lite för höga eller för låga värden för att resultatet ska anses som tillfredställande. För att få en bekräftelse på att HotHumiBoxen fungerar väl rekommenderas därför att ytterligare mätningar görs. / HotHumiBox is an experimental equipment that is available at Linnaeus University and is supposed to provide better knowledge and understanding about the way moisture and temperature varies in a building element installed between two chambers in which the climate can be controlled separately. The purpose of this work is to investigate whether the HotHumiBox works well and whether it can be used at various courses at the Department of Building Technology at Linnaeus University, such as demonstration laboratory experiments at lectures on moisture. Measurements with three different climates were performed on a building element that corresponds to a wall that could be installed in modern houses. The results of the HotHumiBox measurements are being presented in tables and diagrams and are being compared with moisture and temperature calculations. The comparison between measurements and calculations shows that the sensors which control the climate in both chambers show very good results. On the other hand, the majority of the sensors in the test element show either too high or too low values for the result to be considered as satisfactory. Therefore, it is recommended that some more tests and measurements are done before it can be concluded that the HotHumiBox work well.

HotHumiBox

Moisture

Heat

Vapor Density

Saturation Vapor Density

Relative Humidity

Temperature

U-value

Heat Conduction

Thermal Resistance

Heat Transfer

Heat Flow

Diffusion

Convection

Water Vapor Diffusion Resistance

HotHumiBox

Fukt

Värme

Ånghalt

Mättnadsånghalt

Relativ Fuktighet

Temperatur

U-värde

Värmekonduktivitet

Värmemotstånd

Värmeledning

Värmeflöde

Diffusion

Konvektion

Ånggenomggångsmotstånd

Civil Engineering

Samhällsbyggnadsteknik