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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 Soloviov Includes the selected person into the timetable overlap calculation. Vitalii Integrated Systems in Buildings - HVAC in an Office Building Integrated Systems in Buildings - HVAC in an Office Building Thesis finished and defended successfully (DUO).   Zálešák Martin Hirš Jiří Master's thesis 1441836000000 10.09.2015 Integrated Systems in Buildings - HVAC in an Office Building Thesis finished and defended successfully (DUO).
Vitalii Soloviov Master's thesis 0XX 0XX 0XX 0XX 0XX 0XX 0XX 0XX 0XX 0XX

Thesis info Integrated Systems in Buildings - HVAC in an Office Building

  • Basic data
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Name Soloviov Vitalii 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 Integrované systémy v budovách - Systémy techniky prostředí v administrativní budově
Main topic in English Integrated Systems in Buildings - HVAC in an Office Building
Title according to student Integrated Systems in Buildings - HVAC in an Office Building
English title as given by the student -
Parallel name -
Subtitle -
Thesis supervisor Zálešák Martin, Ing. CSc.
External examiner Hirš Jiří, prof. Ing. CSc.
Annotation Cílem této práce je návrh integrovaného technického systému v kancelářské budově, se zaměřením na úspory energie a zajištění komfortu pro obyvatele. Práce prezentuje studii o perspektivách rekonstrukci starých budov v Moldavsku, v souladu s moderními přístupy v oblasti energetické účinnosti a systémů řízení budov. Požadavky stavebních konstrukcí, spotřeby energie, tepelné pohody, osvětlení a akustiky jsou analyzovány z národní a evropské perspektivy. Cíl je realizován pomocí návrhu systému HVAC, přípravy teplé vody a osvětlení pro konkrétní stavbu a zlepšení izolace obálky budovy. Možnost využití obnovitelných zdrojů energie je analyzována při použití solárního kolektoru pro přípravu teplé vody a fotovoltaického systému. Principy činnosti Inteligentní budovy jsou realizovány prostřednictvím řídicího systému KNX a monitorovacího systému SCADA. Dopad navrhovaných opatření je ekonomicky hodnocený z hlediska existujících okolností.
Annotation in English Scope of this Thesis is designing an integrated technical system for an office building, with the focus on energy savings and provision of comfort for inhabitants. Thesis presents a study on the perspectives of old buildings renovation in Moldova, according to modern approaches on energy efficiency and building management systems. Requirements towards building structures, energy consumption, thermal comfort, lighting and acoustics are ana-lyzed from national and EU perspective. Aim is realized by designing HVAC, hot water preparation and lighting systems for a specific building and improvement of its building envelope insulation. Possibility of using renewable sources of energy is analyzed by design of solar collector for hot water preparation and photovoltaic system. Intelligent building operation principles are implemented through KNX control and SCADA monitoring sys-tems. Finally, impact of proposed measures is economically evaluated in terms of existing circumstances.
Keywords Integrovaný systémy v budovách, energetická účinnost, inteligentní budovy, Moldavsko, stavební fyzika, systém HVAC, osvětlení, obnovitelné zdroje energie, KNX, SCADA.
Keywords in English Integrated building system, energy efficiency, intelligent building, Moldova, building physics, HVAC system, lighting, renewable energy, KNX, SCADA.
Length of the covering note 193 p.
Language AN
Annotation
Cílem této práce je návrh integrovaného technického systému v kancelářské budově, se zaměřením na úspory energie a zajištění komfortu pro obyvatele. Práce prezentuje studii o perspektivách rekonstrukci starých budov v Moldavsku, v souladu s moderními přístupy v oblasti energetické účinnosti a systémů řízení budov. Požadavky stavebních konstrukcí, spotřeby energie, tepelné pohody, osvětlení a akustiky jsou analyzovány z národní a evropské perspektivy. Cíl je realizován pomocí návrhu systému HVAC, přípravy teplé vody a osvětlení pro konkrétní stavbu a zlepšení izolace obálky budovy. Možnost využití obnovitelných zdrojů energie je analyzována při použití solárního kolektoru pro přípravu teplé vody a fotovoltaického systému. Principy činnosti Inteligentní budovy jsou realizovány prostřednictvím řídicího systému KNX a monitorovacího systému SCADA. Dopad navrhovaných opatření je ekonomicky hodnocený z hlediska existujících okolností.
Annotation in English
Scope of this Thesis is designing an integrated technical system for an office building, with the focus on energy savings and provision of comfort for inhabitants. Thesis presents a study on the perspectives of old buildings renovation in Moldova, according to modern approaches on energy efficiency and building management systems. Requirements towards building structures, energy consumption, thermal comfort, lighting and acoustics are ana-lyzed from national and EU perspective. Aim is realized by designing HVAC, hot water preparation and lighting systems for a specific building and improvement of its building envelope insulation. Possibility of using renewable sources of energy is analyzed by design of solar collector for hot water preparation and photovoltaic system. Intelligent building operation principles are implemented through KNX control and SCADA monitoring sys-tems. Finally, impact of proposed measures is economically evaluated in terms of existing circumstances.
Keywords
Integrovaný systémy v budovách, energetická účinnost, inteligentní budovy, Moldavsko, stavební fyzika, systém HVAC, osvětlení, obnovitelné zdroje energie, KNX, SCADA.
Keywords in English
Integrated building system, energy efficiency, intelligent building, Moldova, building physics, HVAC system, lighting, renewable energy, KNX, SCADA.
Research Plan
  1. Study of energy efficient office buildings from the view of building physics, energy consumption, inner environment, lighting and accoustics, with the consideration of renewables usage.
  2. Description of the requirements on building structures, building architecture, HVAC systems, lighting systems, including monitoring and control.
  3. Design of suitable HVAC systems for a specific building.
  4. Implementation of renewable technologies.
  5. Design of an acceptable communication, control and monitoring system with SCADA visualization.
Research Plan
  1. Study of energy efficient office buildings from the view of building physics, energy consumption, inner environment, lighting and accoustics, with the consideration of renewables usage.
  2. Description of the requirements on building structures, building architecture, HVAC systems, lighting systems, including monitoring and control.
  3. Design of suitable HVAC systems for a specific building.
  4. Implementation of renewable technologies.
  5. Design of an acceptable communication, control and monitoring system with SCADA visualization.
Recommended resources
  1. AMERICAN SOCIETY OF HEATING, Refrigerating and Air-Conditioning Engineers. 2005 ASHRAE handbook fundamentals. I-P and SI eds. Atlanta, Ga: ASHRAE, 2005. ISBN 19-318-6273-7.
  2. Taschenbuch für Heizung und Klimatechnik \matsymb{lbrack}13/14\matsymb{rbrack}: einschließlich Warmwasser- und Kältetechnik. München: Oldenbourg Industrieverlag, c2013, 1852 s. , 40 s. příl. ISBN 978-3-8356-3301-8.
  3. MCDOWALL, Robert a Ross MONTGOMERY. Fundamentals of HVAC control systems. I-P ed. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers, c2011, viii, 348 p. ISBN 978-193-3742-922.
  4. KAVANAUGH, Stephen P a Ross MONTGOMERY. HVAC simplified. I-P ed. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers, c2006, xi, 236 p. ISBN 978-193-1862-974.
  5. SPITLER, Jeffrey D a Ross MONTGOMERY. Load calculation applications manual. Second edition. I-P edition. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers, c2006, pages cm. ISBN 978-193-6504-756.
  6. HAINES, Roger W a Michael E MYERS. HVAC systems design handbook. 5th ed. New York: McGraw-Hill, c2010, xvi, 560 p. ISBN 00-716-2297-7.
Recommended resources
  1. AMERICAN SOCIETY OF HEATING, Refrigerating and Air-Conditioning Engineers. 2005 ASHRAE handbook fundamentals. I-P and SI eds. Atlanta, Ga: ASHRAE, 2005. ISBN 19-318-6273-7.
  2. Taschenbuch für Heizung und Klimatechnik \matsymb{lbrack}13/14\matsymb{rbrack}: einschließlich Warmwasser- und Kältetechnik. München: Oldenbourg Industrieverlag, c2013, 1852 s. , 40 s. příl. ISBN 978-3-8356-3301-8.
  3. MCDOWALL, Robert a Ross MONTGOMERY. Fundamentals of HVAC control systems. I-P ed. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers, c2011, viii, 348 p. ISBN 978-193-3742-922.
  4. KAVANAUGH, Stephen P a Ross MONTGOMERY. HVAC simplified. I-P ed. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers, c2006, xi, 236 p. ISBN 978-193-1862-974.
  5. SPITLER, Jeffrey D a Ross MONTGOMERY. Load calculation applications manual. Second edition. I-P edition. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers, c2006, pages cm. ISBN 978-193-6504-756.
  6. HAINES, Roger W a Michael E MYERS. HVAC systems design handbook. 5th ed. New York: McGraw-Hill, c2010, xvi, 560 p. ISBN 00-716-2297-7.
Týká se praxe No
Enclosed appendices CD with 9 appendices
Appendices bound in thesis illustrations, plans, schemes, tables
Taken from the library No
Full text of the thesis
Appendices
Reviewer's report
Supervisor's report
Defence procedure record file