Grahame Douglas scite author profile

Grahame Douglas

5Publications

26Citation Statements Received

87Citation Statements Given

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Affiliations

Western Sydney University

Publications

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Numerical Investigation of Bushfire-Wind Interaction and its Impact on Building Structure

He¹,

Kwok²,

Douglas³

et al. 2011

Fire Saf. Sci.

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Presented in this paper are the results of a numerical study on bushfire, wind and structure interactions. The association of bushfires with wind has long been recognized. However, the mechanism of their interaction has not received due attention. In the current study a computational fluid dynamics package was used to reveal the enhancement of wind by fires at scales comparable to buildings and the impact on buildings. The study also revealed a pulsation movement of flames under the influence of free stream wind conditions. The predicted pressure coefficient distribution around a building under no-fire condition was compared with the experimental result measured by others. Reasonably good agreement was obtained before a fire was added to reveal the impact of the fire.KEYWORDS: CFD, modeling, pressure coefficient, pulsation, velocity, wildfires. NOMENCLATURE LISTINGnormalized power spectrum (energy fraction at given frequency) (s)

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The Value of Integrating Existing 3D Seismic into Shallow Gas Studies

Salisbury¹,

Geol²,

Denley³

et al. 1996

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wwuhl 1Q%m=~oRETEc~~oL~v coN==NcE Th#smWr msptavrti tilpr-n-atme&hore Tockno~y Conferenceheldln Ho.stcm Texas, 6.9 MaY 196S This Pawrwa8 salectnd for presentation by the OTC Prowam Commmea following revmw of mfomurton Cont8imd in m ab$tmd subnuttsd by the authm(s) Contents of ttw paver as F#eseoted hava motbnn lewmd by the Otfshore Technc.!qy Confe!exe and we subject to conectjmbytfwwlhof[s)~cmabrtal, -me8eni~, tisdnmmsaf!ly refl=t any position cflhe Offshcfe Technology Contwence orkoffmsrs Permissm to COPYIS restricted to an abstract C4 nti more tfmn SW words Illustratmns may not be coPwd The abstract should conb,nconspgcuws achtidoemenb oltiere and bytiom the paper was presented @ . q AbstractConventional 3D surveys, although designed and processed wilh clear exploration objectives in mind, of{cn contain much valuable information in the shallow section This information can add significantly to shallow gas studies based on conventional high resohrlion seismic [cchniqucs. Examples from the North Sea are used to illustrate how an integrated approach to interpretation can lead to a better understanding of [he shallow geology and to a more accurate and reliable assessment of drilling hazards, particularly shallow gas. A ncw apprrx~chto site investigations has been tried and tested and has been found to be both time and cost etTecti\'e.

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Fire Behaviour of Insulation Panels Commonly Used in High-Rise Buildings

Hossain

Hassan

Akl

et al. 2022

Fire

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The energy efficiency of buildings drives the replacement of traditional construction materials with lightweight insulating materials. However, energy-efficient but combustible insulation might contribute to the building’s fire load. Therefore, it is necessary to analyse the reaction-to-fire properties of various insulating materials to provide a better understanding of designing a fire-safe structure. In this study, reaction-to-fire tests were carried out to assess the fire behaviour of lightweight polystyrene insulating panels commonly employed in high-rise buildings. The flammability characteristics of expanded polystyrene (EPS) and extruded polystyrene (XPS) were determined using a cone calorimeter under two distinct external irradiance regimes, 35 kW/m2 and 50 kW/m2, to approximate small to medium fire exposure situations. To investigate the effect of a fire-rated (FR) foil layer on a sandwich panel, three distinct test configurations were used: (i) sample without FR layer (standard sample), (ii) sample with FR layer (FR foil), and (iii) damaged layer (foil and vent) for EPS. Except for the smoke toxicity index (STI), the overall fire performance of EPS is superior to that of XPS. The findings of this study are useful in analysing fire performance and fire safety design for lightweight insulation panels.

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Numerical Investigations on the Influencing Factors of Rapid Fire Spread of Flammable Cladding in a High-Rise Building

Hassan

Hossain

Gilvonio

et al. 2022

Fire

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This paper investigates aluminium composite panels (ACPs) to understand the fire behaviour of combustible cladding systems under different fire scenarios. A fire dynamics simulator (FDS) is used to develop the numerical model of full-scale fire tests of combustible cladding systems using the procedures of the British BS 8414.1 standards. The results obtained from the FDS models are verified with test data. Seven test scenarios are investigated with four distinct parameters, i.e., cavity barrier, air-cavity gap, panel mounting (with and without joining gaps between the panels), and material combustibility qualities. A critical air-cavity gap (50–100 mm) is established at which maximum fire spread is noticed. Furthermore, variations in the cavity barrier, panel mounting, and material combustibility significantly impact the rapid fire spread of ACP cladding systems and the internal failure criterion. The results from the present study can serve as a basis for future research on the full-scale fire-test development of combustible ACPs.

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Use of the Extreme Value Analysis in Determining Annual Probability of Exceedance for Bushfire Protection Design

Douglas¹,

He²,

Xiang³

et al. 2014

Fire Saf. Sci.

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Grahame Douglas

Numerical Investigation of Bushfire-Wind Interaction and its Impact on Building Structure

The Value of Integrating Existing 3D Seismic into Shallow Gas Studies

Fire Behaviour of Insulation Panels Commonly Used in High-Rise Buildings

Numerical Investigations on the Influencing Factors of Rapid Fire Spread of Flammable Cladding in a High-Rise Building

Use of the Extreme Value Analysis in Determining Annual Probability of Exceedance for Bushfire Protection Design

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