A novel system solution for cooling and ventilation in office buildings

A review of applied technologies and a case study

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

23 Citationer (Scopus)

Resumé

As a response to new energy policies in the building sector, office buildings have become well-insulated and highly-airtight, resulting in an increasing cooling need both in summer and in winter. In order to effectively save energy, new interests in cooling concepts using passive cooling technologies and renewable energy sources have risen. Based on a literature review of natural ventilation, building thermal mass activation and diffuse ceiling ventilation, this paper proposes a new system solution combining these three technologies for cooling and ventilation in office buildings. This new solution has the special function of using natural ventilation all the year around without draught risk, even in very cold seasons. A case study of a typical office room using this solution and other traditional HVAC systems is carried out by energy simulation. The results show that there is a large energy saving potential using this solution compared with other systems. Energy saving potential for cooling occurs in summer, transitional seasons and part of winter, depending on the internal heat load level. Meanwhile, due to the large cooling potential of outside air in winter, the minimum ventilation rate is sufficient for the ventilation and cooling requirements compared with that in other seasons.
OriginalsprogEngelsk
TidsskriftEnergy and Buildings
Vol/bind90
Udgave nummer1 March 2015
Sider (fra-til)142–155
Antal sider14
ISSN0378-7788
DOI
StatusUdgivet - 2015

Fingerprint

Office buildings
Ventilation
Cooling
Energy conservation
Energy policy
Ceilings
Thermal load
Chemical activation
Air

Emneord

  • Natural ventilation
  • Building thermal mass activation
  • Diffuse ceiling inlet
  • New system solution
  • Energy saving potential

Citer dette

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title = "A novel system solution for cooling and ventilation in office buildings: A review of applied technologies and a case study",
abstract = "As a response to new energy policies in the building sector, office buildings have become well-insulated and highly-airtight, resulting in an increasing cooling need both in summer and in winter. In order to effectively save energy, new interests in cooling concepts using passive cooling technologies and renewable energy sources have risen. Based on a literature review of natural ventilation, building thermal mass activation and diffuse ceiling ventilation, this paper proposes a new system solution combining these three technologies for cooling and ventilation in office buildings. This new solution has the special function of using natural ventilation all the year around without draught risk, even in very cold seasons. A case study of a typical office room using this solution and other traditional HVAC systems is carried out by energy simulation. The results show that there is a large energy saving potential using this solution compared with other systems. Energy saving potential for cooling occurs in summer, transitional seasons and part of winter, depending on the internal heat load level. Meanwhile, due to the large cooling potential of outside air in winter, the minimum ventilation rate is sufficient for the ventilation and cooling requirements compared with that in other seasons.",
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author = "Tao Yu and Heiselberg, {Per Kvols} and Bo Lei and Pomianowski, {Michal Zbigniew} and Chen Zhang",
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A novel system solution for cooling and ventilation in office buildings : A review of applied technologies and a case study. / Yu, Tao; Heiselberg, Per Kvols; Lei, Bo; Pomianowski, Michal Zbigniew; Zhang, Chen.

I: Energy and Buildings, Bind 90, Nr. 1 March 2015, 2015, s. 142–155.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

TY - JOUR

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AU - Zhang, Chen

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N2 - As a response to new energy policies in the building sector, office buildings have become well-insulated and highly-airtight, resulting in an increasing cooling need both in summer and in winter. In order to effectively save energy, new interests in cooling concepts using passive cooling technologies and renewable energy sources have risen. Based on a literature review of natural ventilation, building thermal mass activation and diffuse ceiling ventilation, this paper proposes a new system solution combining these three technologies for cooling and ventilation in office buildings. This new solution has the special function of using natural ventilation all the year around without draught risk, even in very cold seasons. A case study of a typical office room using this solution and other traditional HVAC systems is carried out by energy simulation. The results show that there is a large energy saving potential using this solution compared with other systems. Energy saving potential for cooling occurs in summer, transitional seasons and part of winter, depending on the internal heat load level. Meanwhile, due to the large cooling potential of outside air in winter, the minimum ventilation rate is sufficient for the ventilation and cooling requirements compared with that in other seasons.

AB - As a response to new energy policies in the building sector, office buildings have become well-insulated and highly-airtight, resulting in an increasing cooling need both in summer and in winter. In order to effectively save energy, new interests in cooling concepts using passive cooling technologies and renewable energy sources have risen. Based on a literature review of natural ventilation, building thermal mass activation and diffuse ceiling ventilation, this paper proposes a new system solution combining these three technologies for cooling and ventilation in office buildings. This new solution has the special function of using natural ventilation all the year around without draught risk, even in very cold seasons. A case study of a typical office room using this solution and other traditional HVAC systems is carried out by energy simulation. The results show that there is a large energy saving potential using this solution compared with other systems. Energy saving potential for cooling occurs in summer, transitional seasons and part of winter, depending on the internal heat load level. Meanwhile, due to the large cooling potential of outside air in winter, the minimum ventilation rate is sufficient for the ventilation and cooling requirements compared with that in other seasons.

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