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  Surname Name Title Thesis status   Supervisors Reviewers Type of thesis Date of def. Title
Student Type of thesis - - - - - - - - - -
Item shown in detail Pangaribuan Includes the selected person into the timetable overlap calculation. Artambo Benjamin Complete Solution of HVAC for Family House Building in Indonesia Complete Solution of HVAC for Family House Building in Indonesia Thesis finished and defended successfully (DUO).   Zálešák Martin Hirš Jiří Master's thesis 1441836000000 10.09.2015 Complete Solution of HVAC for Family House Building in Indonesia Thesis finished and defended successfully (DUO).
Artambo Benjamin Pangaribuan Master's thesis 0XX 0XX 0XX 0XX 0XX 0XX 0XX 0XX 0XX 0XX

Thesis info Kompletní řešení vzduchotechniky pro rodinny dum budovy Building v Indonésii

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Name Pangaribuan Artambo Benjamin Includes the selected person into the timetable overlap calculation.
Acad. Yr. 2014/2015
Assigning department AUART
Date of defence Sep 10, 2015
Type of thesis Master's thesis
Thesis status Thesis finished and defended successfully (DUO). Thesis finished and defended successfully (DUO).
Completeness of mandatory entries - The following mandatory fields are not filled in for this Thesis.: Title in English
Main topic Kompletní řešení vzduchotechniky pro rodinný dům budovy v Indonésii
Main topic in English Complete Solution of HVAC for Family House Building in Indonesia
Title according to student Kompletní řešení vzduchotechniky pro rodinny dum budovy Building v Indonésii
English title as given by the student -
Parallel name -
Subtitle -
Thesis supervisor Zálešák Martin, Ing. CSc.
External examiner Hirš Jiří, prof. Ing. CSc.
Annotation Tato diplomová práce obsahuje návrh řešení rodinného domu. Budova se nachází v Indonésii, jihovýchodní asijské zemi. Hlavní cíl práce je navrhnout systém chlazení pomocí reverzibilního tepelného čerpadla uvnitř domu tak, aby bylo dosaženo podmínek pohody prostředí pro obyvatele domu. Chladicí systém je součást vzduchotechnického systému a bude navržen jako pasivní chlazení. Budova je navržena tak, aby splňovala podmínky standardů kladené na tzv. zelené budovy. Součástí řešení je i návrh elektroinstalace a osvětlovací soustavy. Součástí řešení je i návrh zabezpečovacího zařízení a systém řízení a monitorování tepelných stavů. Jako obnovitelný zdroj je navrženo využití fotovoltaiky s návazností na venkovní elektrické sítě. V projektu je pozornost věnována i ohřevu teplé vody pomocí solárních panelů as využitím odpadního tepla z tepelného čerpadla. Všechny systémy jsou začleněny do jednoho komunikačního distribuovaného protokolu BACnet sítě formou SCADA pro účelné správy budovy. Diplomová práce je rozdělena na teoretickou část, ve které jsou uvedeny podklady nutné pro vypracování praktické části a praktickou část podle obsahu.
Annotation in English This master thesis contains the solution design of single family house building located in Indonesia, South East Asian country. The mainly purpose of the thesis is to design cooling system using reversible heat pump inside the house to reach comfortable temperature for the occupants. Along with the cooling system include the ventilation design as the passive cooling, also observation of the feasibility material building properties to support optimiza-tion of the house design approaching green building standard. Electrical installation such as lighting design combine with other electrical fixtures in security and communication sys-tems by using the collaboration of utility grid and photovoltaic panel as the renewable power source. Plumbing system are include reviewed withal domestic hot water supply associated by means of heat waste from the heat pump and solar water heating system. All systems are obligatory to be integrated in one communication distributed control BACnet protocol network platform by way of SCADA solution in order to manage the energy effi-ciency as well as its economic evaluation of the house. Thesis' contents are divided into theoretical groundwork and the practical part
Keywords automatizace budov systém, facility management, inteligentní domácnost, inteligentní budovy, zelená budova, informační modelování budov, tepelné čerpadlo, bezpečnostní systém, fotovoltaický panel
Keywords in English building automation system, facility management, smart home, intelligent building, green building, building information modelling, heat pump, security system, photovoltaic panel, HVAC, BACnet, SCADA
Length of the covering note 134
Language AN
Annotation
Tato diplomová práce obsahuje návrh řešení rodinného domu. Budova se nachází v Indonésii, jihovýchodní asijské zemi. Hlavní cíl práce je navrhnout systém chlazení pomocí reverzibilního tepelného čerpadla uvnitř domu tak, aby bylo dosaženo podmínek pohody prostředí pro obyvatele domu. Chladicí systém je součást vzduchotechnického systému a bude navržen jako pasivní chlazení. Budova je navržena tak, aby splňovala podmínky standardů kladené na tzv. zelené budovy. Součástí řešení je i návrh elektroinstalace a osvětlovací soustavy. Součástí řešení je i návrh zabezpečovacího zařízení a systém řízení a monitorování tepelných stavů. Jako obnovitelný zdroj je navrženo využití fotovoltaiky s návazností na venkovní elektrické sítě. V projektu je pozornost věnována i ohřevu teplé vody pomocí solárních panelů as využitím odpadního tepla z tepelného čerpadla. Všechny systémy jsou začleněny do jednoho komunikačního distribuovaného protokolu BACnet sítě formou SCADA pro účelné správy budovy. Diplomová práce je rozdělena na teoretickou část, ve které jsou uvedeny podklady nutné pro vypracování praktické části a praktickou část podle obsahu.
Annotation in English
This master thesis contains the solution design of single family house building located in Indonesia, South East Asian country. The mainly purpose of the thesis is to design cooling system using reversible heat pump inside the house to reach comfortable temperature for the occupants. Along with the cooling system include the ventilation design as the passive cooling, also observation of the feasibility material building properties to support optimiza-tion of the house design approaching green building standard. Electrical installation such as lighting design combine with other electrical fixtures in security and communication sys-tems by using the collaboration of utility grid and photovoltaic panel as the renewable power source. Plumbing system are include reviewed withal domestic hot water supply associated by means of heat waste from the heat pump and solar water heating system. All systems are obligatory to be integrated in one communication distributed control BACnet protocol network platform by way of SCADA solution in order to manage the energy effi-ciency as well as its economic evaluation of the house. Thesis' contents are divided into theoretical groundwork and the practical part
Keywords
automatizace budov systém, facility management, inteligentní domácnost, inteligentní budovy, zelená budova, informační modelování budov, tepelné čerpadlo, bezpečnostní systém, fotovoltaický panel
Keywords in English
building automation system, facility management, smart home, intelligent building, green building, building information modelling, heat pump, security system, photovoltaic panel, HVAC, BACnet, SCADA
Research Plan
  1. A study of solutions of energy sufficient domestic houses from the viewpoint of the external climatic conditions, the building's physics, energy performance, HVAC systems with the possible utilization of renewable energy sources.
  2. Based on the above, to state analyses describing requirements on HVAC systems, lighting, and ways of possible control and communication.
  3. To design suitable HVAC system with the utilization of renewable for real buildings. The system should be based on an AC system with cooling by a reversible heat pump and to design a solar water heating system.
  4. To design a convenient control system, with control, monitoring and SCADA functions related to the facility management of the building.
  5. The design should include sole electrical installations, and their security system.
  6. To consider the possibility of photovoltaic panel utilization for electricity supply and evaluate it economically.
Research Plan
  1. A study of solutions of energy sufficient domestic houses from the viewpoint of the external climatic conditions, the building's physics, energy performance, HVAC systems with the possible utilization of renewable energy sources.
  2. Based on the above, to state analyses describing requirements on HVAC systems, lighting, and ways of possible control and communication.
  3. To design suitable HVAC system with the utilization of renewable for real buildings. The system should be based on an AC system with cooling by a reversible heat pump and to design a solar water heating system.
  4. To design a convenient control system, with control, monitoring and SCADA functions related to the facility management of the building.
  5. The design should include sole electrical installations, and their security system.
  6. To consider the possibility of photovoltaic panel utilization for electricity supply and evaluate it economically.
Recommended resources
  1. ASHRAE HANDBOOK. Part 1-4. American Society of Heating, Refrigeration and Air Conditioning Engineers, Inc. 1791 Tutlie Circle, N.E., Atlanta, GA 30329. ISBN 1-931862-73-7. ISSN 1549-2370.
  2. RECKNAGEL-SPRENGER-SCHRAMEK-Taschenbusch fur Heizung und Klimatechnik. Ouldenbourg GEBAUDEAUTOMATION, Merz-Hanseman-Hubner, Carl Hanser Verlag, Munich 2007.
  3. FACHKUNDE ELECTROTECHNIK, Verlag Europa-Lehrmittel, Nourney, Vollmer GmbH&Co. KG 2006.
  4. MARKS' STANDARD HANDBOOK FOR MECHANICAL ENGINEERS, Mc Graw Hill, ISBN-13: 978-0-07142867-5.
Recommended resources
  1. ASHRAE HANDBOOK. Part 1-4. American Society of Heating, Refrigeration and Air Conditioning Engineers, Inc. 1791 Tutlie Circle, N.E., Atlanta, GA 30329. ISBN 1-931862-73-7. ISSN 1549-2370.
  2. RECKNAGEL-SPRENGER-SCHRAMEK-Taschenbusch fur Heizung und Klimatechnik. Ouldenbourg GEBAUDEAUTOMATION, Merz-Hanseman-Hubner, Carl Hanser Verlag, Munich 2007.
  3. FACHKUNDE ELECTROTECHNIK, Verlag Europa-Lehrmittel, Nourney, Vollmer GmbH&Co. KG 2006.
  4. MARKS' STANDARD HANDBOOK FOR MECHANICAL ENGINEERS, Mc Graw Hill, ISBN-13: 978-0-07142867-5.
Týká se praxe No
Enclosed appendices 1. Active Cooling 2. Passive Cooling 3. Figures CD ROM
Appendices bound in thesis illustrations, maps, graphs, plans, schemes, portraits, tables
Taken from the library No
Full text of the thesis
Appendices
Reviewer's report
Supervisor's report
Defence procedure record file