A review of ventilation opening area terminology

Jones, Benjamin; Cook, Malcolm; Fitzgerald, Shaun; Iddon, Christopher

doi:10.1016/j.enbuild.2016.02.053

Cited by 41 publications

(31 citation statements)

References 19 publications

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“…Openings in a building envelope can be divided into two types: adventitious openings and purpose provided openings (PPOs) [2]. Adventitious openings are unintentional, and comprise cracks and gaps in the building envelope.…”

Section: Principles Of Envelope Flow Modelsmentioning

confidence: 99%

“…The names and definitions of the terms used in this equation vary between sources, particularly those describing measurements of area. Therefore, this paper follows the convention of Jones et al [2] to avoid ambiguity.…”

Section: Theory Of Flow Through Openingsmentioning

confidence: 99%

“…To encourage the widespread use of natural ventilation, reliability issues need to be addressed. A major source of prediction error stems from a poor understanding of the aerodynamic performance of window openings (PPOs) and whole building systems [1,2,3,4]. This paper will show that techniques for modelling real openings are flawed, and create systematic errors in performance predictions that, when brought to light in the under-performance of the finished building [5], can damage the reputation of natural ventilation design.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

What we think we know about the aerodynamic performance of windows

Sharpe

Jones

Wilson

et al. 2021

Energy and Buildings

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Natural ventilation is a low energy strategy used in many building types. Design approaches are mature but are dependent on variables with high uncertainty, such as the aerodynamic behaviour of purpose provided openings (PPOs), which need improved characterisation. An analytical framework is used to define different types of flow through openings based on the balance of environmental forces that drive flow, and the different flow structures they create. This allows a comprehensive literature review to be made, where different studies and descriptive equations can be compared on a like-for-like basis, and from which clear gaps in knowledge, technical standards, and design data are identified. Phenomena whose

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Section: Principles Of Envelope Flow Modelsmentioning

confidence: 99%

Section: Theory Of Flow Through Openingsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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What we think we know about the aerodynamic performance of windows

Sharpe

Jones

Wilson

et al. 2021

Energy and Buildings

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“…Where A * is the effective area of ventilation openings (see [94]), β is the thermal expansion coefficient of air, and H is the stack height. The rate of ventilation, powered by buoyancy, depends on the interior temperature-which in turn depends on the rate of ventilation.…”

Section: The Holford and Woods Modelmentioning

confidence: 99%

The Optimal Tuning, within Carbon Limits, of Thermal Mass in Naturally Ventilated Buildings

Craig¹

2019

Preprint

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What proportions should a thermally massive building have? How should the thermal mass be distributed? Should the "massing" change with the choice of material? This paper shows how to optimize the physical proportions of a building so that it synchronizes ambient heat exchanges in a natural feedback cycle. An internal mass is thermally coupled with buoyancy ventilation; the cycle is driven by the daily swing of outdoor temperature. Tripling up functions in this way—so that structural materials can reliably cool and power the ventilation for buildings—could help decarbonize the construction industry and provide an effective strategy for adapting to life-threatening heatwaves. Based on harmonic analysis, the method allows designers to thermally tune the form and mass of a building to meet chosen targets for temperature and ventilation in free-running mode. Once the optimal balance of exchange rates is known, design teams can proportionally vary the building height and ventilation openings against the surface area and thickness of an internal thermal mass. The possible permutations are infinite but parametrically constrained, allowing teams to fairly compare the functional and environmental credentials of different construction materials while they produce and evaluate preliminary options for organizing the exterior form and interior spaces of a building. An example study suggests that thin-shell structures of minimum weight, and even timber buildings, may be optimally tuned to produce ample ventilation and temperature attenuation.

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“…Regarding the latter, even within the well-established engineering/scientific communities there can be considerable variation between the definition and interpretation of certain terminologies. As an example, Jones et al (2016) recently highlighted different, and even contradictory, definitions regarding the area of ventilation openings that are currently used by building standards, guidelines, textbooks and software tools. Confusion, in this case, over terms including 'free area', 'equivalent area' and 'effective area', can lead to unintended and undesirable errors in design specifications, leading (in turn) to under (or over) ventilation, overheating, air quality and acoustic issues, excessive energy consumption and associated carbon emissions, and high capital running costs (Jones et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Capturing the needs of architects: a survey of their current information requirements for natural ventilation design

Baeumle

Hunt

2017

International Journal of Ventilation

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This paper focusses on identifying the information needs of modern-day architects seeking to design low-energy naturally ventilated buildings. We present the results of a survey conveying the personal views of international MA/MSc/MArch student architects at the Architectural Association School of Architecture, London, UK. The aim was to gain insight and raise awareness of architects' current information requirements. Our study covered aspects concerning architects' perceived knowledge of natural ventilation, the resources they most frequently use/refer to (and prefer to use) for design guidance, their perceived barriers when designing for natural ventilation, and their preference for the style and format for future natural ventilation design guides. Our results reveal that design codes and case studies of exemplar buildings, rather than technically-orientated journals, were the preferred literature. A need for architect-focussed design guidance, in a visual format using conventions and terminologies already familiar to, or readily appreciated by, architects was identified.

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A review of ventilation opening area terminology

Cited by 41 publications

References 19 publications

What we think we know about the aerodynamic performance of windows

What we think we know about the aerodynamic performance of windows

The Optimal Tuning, within Carbon Limits, of Thermal Mass in Naturally Ventilated Buildings

Capturing the needs of architects: a survey of their current information requirements for natural ventilation design

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