Měřicí a regulační systém vzduchového zemního výměníku tepla / Measurement and control system of an air-ground heat exchanger

Bielik, Jan

January 2015

Diploma thesis deals with design of measurement and control system of an air-ground heat exchanger, which is placed in area of FME BUT in Brno. System is built in development environment LabVIEW and it is using modules CompactDAQ from National Instrument. Developed system managed trial operation, during which was designed additional changes of measurement equipment for determine another magnitudes, which help us with future evaluation of benefit of air-ground heating exchanger. It was designed some operational modes, which solve different ways of control air-ground heat exchanger.

Värmeåtervinning ur ventilationsluft i äldre flerbostadshus : En jämförande studie av centralt FTX- och FX system / Heat recovery from ventilation air in older apartment buildings : A comparing study of heat recovery between a counterflow heat exchanger and an exhaust air heat pump

Medina, Jean Pierre, Abdulla, Zjikar

January 2013

En jämförelsestudie har genomförts mellan två värmesystem. Analysen har genomförts med ett flerbostadshus som referensfasighet. Fastigheten är lokaliserad i Södertälje kommun. Analysen går ut på att bestämma vilket värmesystem som är fördelaktigt vid renovering av äldre flerbostadshus med avseende på energi och kostnad. De systemen som har behandlats är ett centralt värmesystem med motströmsvärmeväxlare och ett centralt värmesystem med frånluftsvärmepump. Det centrala värmesystemet (Eq aggregat) är ett centralt från- och tilluftssystem med återvinning (FTX system). Systemet använder en motströmsvärmeväxlare för överföring av värmeenergi mellan från- och tilluften. Det centrala värmesystemet (Energi well) är ett frånluftssystem (FX system) med en ny teknisk lösning. Systemet återvinner värme ur frånluften med hjälp av kondenserande frånluftsvärmpumpar. Värmepumparna finns i en frånluftskammare på vindsvåningen. Den återvunna värmen förs sedan vidare till undercentralen för att värma upp varmvattnet. Analysen har genomförts med hjälp av teoretiska energi- och kostnadsberäkningar, intervjuer och faktainsamlingar.  Energiberäkningarna har bestått av en energibalansberäkning för att få fram den köpta energiförbrukningen. Kostnadsberäkningar har bestått av en livscykelkostnads kalkyl och en kostnads beräkning per producerad värmeenergi. De resulterande värdena för båda värmesystemen har sedan jämförts med varandra. Resultatet visade att värmesystemet Energy well var mest fördelaktig ur både energi och kostnad perspektiv. Den årliga köpta energiförbrukningen var                          lägre än värmesystemet (Eq aggregat) med en motströmsvärmeväxlare. Driftkostnaden var  lägre än Eq aggregat, installations-kostnaderna var  lägre än Eq aggregat och slutlig var livscykelkostnaden  lägre än värme-systemet (Eq aggregat) med motströmsvärmeväxlare. Men underhållskostnaden var  högre än värmesystemet Eq aggregat. Slutsatserna för de teoretiska undersökningarna gav bättre värden för värmesystemet Energy well. Vilket innebär att Energy well är mest fördelaktig utifrån energi- och kostnads perspektiv. Däremot ger värmesystemet med motströmsvärmeväxlare en lägre risk att ett driftfel inträffar i verkligheten. / A comparing study between two different heating systems has been accomplished. The analysis has been conducted with an apartments building as a reference project. The building is located in the municipality of Södertälje. The goal of the analysis is to determine which of the heating system is beneficial for older apartment buildings in terms of energy and cost. The systems that have been treated are a central heating system with a counterflow heat exchanger and a central heating system with an exhaust air heat pump. The central heating system (Eq unit) is a central exhaust- and supply air system with heat recovery. The system uses a counterflow heat exchanger to transfer the heat energy between the exhaust- and supply air. The central heating system (Energy well) is the latest technical solution of a central exhaust air system. The system recovers heat from exhaust air by condensing exhaust air heat pumps. The heat pumps are in an exhaust air chamber and it´s placed on the attic floor. The recovered heat energy sends then to the mechanical room to heat up the water system. The analysis has been accomplished by using theoretical energy- and cost calculations, interviews and data collection. The energy calculations are based on an energy balance equation to determine the bought energy consumption. The cost calculation is based on a life cycle cost equation and a cost equation per produced heat energy. The results of both heating systems have been compared with each other. The results showed that the heating system Energy well was most beneficial in both energy and cost perspective. The annual consumption of bought energy was                          lower each year than the heating system (Eq unit) with a counterflow heat exchanger. The operating costs of the system were  lower than Eq unit, the installation costs were  lower than Eq unit and final was the life cycle cost  less than the heating system (Eq unit) with counterflow heat exchanger. But the service cost was  higher than the heating system Eq unit. The conclusion of the theoretical investigations gave better values ​​for the heating system Energy well. This means than Energy well is most beneficial from the energy and cost perspectives. Contrariwise has the heating system with counterflow heat exchanger a lower risk of an operational failure to occur in reality.

heat recovery

ventilation air

central heating system

Eq unit

Energy well

värmesystem

Energy well

Fx system

värmeåtervinning

FTX system

ventilationsluft

Civil Engineering

Samhällsbyggnadsteknik

Větrání tělocvičny / Ventilation of sports hall

Urban, Ondřej

January 2018

The master thesis deals with flow modeling in the CFD program. By means of which the opti-mal version of the air distribution diffuser in the sports hall will be selected. The first variant will bring fresh air through textile diffusers. The second variant will bring fresh air through flooded large circular diffusers. The tested parameter of the indoor environment will be the flow velocity and the age of the air. The better-performing version will be processed as an implementation documentation.

Solární zisky v budovách / Solar Gains in Buildings

Tenora, Tomáš

January 2013

Master’s thesis deals with solar gains in buildings. The thesis presents an overview of the theoretical knowledge to solve solar gain. The thesis deals possibilities of measuring the intensity of solar radiation and evaluation of data from the meteorological station in the experimental part. Application of topic is then used for polyfunctional building. This part aims to show possibilities of design of air conditioning systems for the purpose of making indoor microclimate and their subsequent evaluation.

Návrh a optimalizace provozu tepelného čerpadla / Design and optimization of heat pump operation

Bergr, Josef

January 2015

The aim of the thesis "Design and optimization of the heat pump" is the project documentation for building permits, finding a suitable source of heat and cold. The problem is solved for a Tesco hypermarket. The device is designed to meet the health, performance and functional requirements for indoor climate. The task of this device is to transport fresh air into the interior cover heat losses in winter and coverage heat gains during the summer. The theoretical part deals with the problem of heat pumps. Special mention is about heat pump air x air. Calculation and design part is a specific proposal, two air conditioners and optimizing for winter. The experimental part deals with the processing of data on existing rooftop units.

Aerosolové a mikrobiální mikroklima čistých prostorů / Aerosol and microbial microclimate of clean rooms

Stojanová, Barbora

January 2019

Master´s thesis deals with the issue of internal microclimate of clean rooms. The experimental part focuses on aerosol and microbial microclimate. Different operating and intervention rooms were measured and then evaluated whether the cleanroom would comply with the standard cleanliness class even in normal operation after previous validations. The microbial examination of different clean spaces investigated the extent to which the exact passive fall method and its evaluation were time-dependent. From the data the correct desing of the air-conditioning system and its subsequent realization and regultion were verified. The theoretical part describes requirements for clean rooms according to SÚKL-LEK 17 and ČSN EN ISO 14644-1. In addition, a detailed methodology of the procedure of air-conditioning implementation is elaborated to the final validation and testing of clean rooms.

Návrh vzduchotechniky v bazénové hale / Design of air conditioning in the swimmingpool hall

Mahovská, Adriana

Unknown Date

The diploma thesis is focused on the issue of ventilation of swimming halls. In the theoretical part, I assess the general issue of air quality in the indoor environment and in swimming halls, ventilation methods and elements for air conditioning in air handling units. In the project part, a complete design of air conditioning for the swimming pool buildings. For ventilation of the pool are created 2 alternative variants of dehumidification of the pool hall and their economic comparison. The experimental part is devoted to the evaporation of water from the water area when moving through water attractions.