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13 results on '"Linden, Paul F."'

1. Assessment and mitigation of personal exposure to particulate air pollution in cities: An exploratory study

Author

Tran, Phuong TM, Adam, Max G, Tham, Kwok Wai, Schiavon, Stefano, Pantelic, Jovan, Linden, Paul F, Sofianopoulou, Eleni, Sekhar, S Chandra, Cheong, David Kok Wai, and Balasubramanian, Rajasekhar

Subjects
Climate-Related Exposures and Conditions, Clinical Research, Sustainable Cities and Communities, Personal exposure, Time-activity, Airborne particles, Urban air quality, Health risk assessment, Environmental Science and Management, Urban and Regional Planning
Abstract

Assessment of integrated personal exposure (PE) to airborne particulate matter (PM) across diverse microenvironments (MEs) over 24 hours under different exposure scenarios is necessary to identify appropriate strategies to improve urban air quality and mitigate the health effects of PM. We carried out a collaborative study in a densely populated city-state (Singapore) to assess the integrated PE to fine particles (PM2.5), ultrafine particles (UFPs) and black carbon (BC) across diverse indoor and outdoor urban MEs, estimate related health risks and make suitable recommendations for healthy living in cities. Two volunteers with different lifestyles participated in the study by tracking their PE to particulate air pollution and the time-activity patterns over 24 hours using portable PM monitoring devices and recording their whereabouts using GPS coordinates. Home, transport and recreation (i.e., food court) MEs represented pollution hotspots of PM2.5 (21.0 μg/m3), BC (3.4 μg/m3) and UFP (33.0 × 103 #/cm3), respectively. Among the different modes of transport used by the participants (walking, cycling, e-scooter, mass rapid transport (MRT), bus, car and taxi), the air pollutants had elevated concentrations while commuting by public transport (bus and MRT) as well as during active modes of transport (walking and cycling). Air-conditioned cars and taxis, equipped with air filtration systems, represented the lowest PE. The health risk assessment revealed that there are potential carcinogenic risks associated with the long-term exposure to elevated levels of PM2.5-bound toxic trace elements. These risks can be mitigated with the introduction of low-carbon and active modes of transport in place of internal combustion engines and the use of indoor air pollution exposure mitigation devices.

Published
2021

2. Schools’ air quality monitoring for health and education: Methods and protocols of the SAMHE initiative and project

Author

Chatzidiakou, Lia, Archer, Rhys, Beale, Victoria, Bland, Sam, Carter, Holly, Castro-Faccetti, Claudia, Edwards, Hannah, Finneran, Joshua, Hama, Sarkawt, Jones, Roderic L., Kumar, Prashant, Linden, Paul F., Rawat, Nidhi, Roberts, Katherine, Symons, Charles, Vouriot, Carolanne, Wang, Douglas, Way, Lucy, West, Sarah, Weston, Dale, Williams, Natalie, Wood, Samuel, and Burridge, Henry C.

Published
2023
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4. The circular capillary jump

Author

Bhagat, Rajesh Kumar and Linden, Paul F.

Subjects
Physics - Fluid Dynamics
Abstract

In this paper we re-examine the flow produced by the normal impact of a laminar liquid jet onto an infinite plane when the flow is dominated by surface tension. It is observed experimentally that after impact the liquid spreads radially over the plane away from the point of impact in a thin film. It is also observed that, at a finite radius, there is an abrupt increase in thickness of the film which has been identified as a hydraulic jump,and that this radius is independent of the orientation of the surface showing that gravity is unimportant (Bhagat et al. 2018). We show that the application of conservation of momentum in the film, subject only to viscosity and surface tension and ignoring gravity completely, predicts a singularity in the curvature of the liquid film and consequently a jump in the depth of the film at a finite radius. This location is almost identical to the radius of the jump predicted by conservation of energy and agrees with experimental observations

Published
2018

5. Nonlinear waves in stratified Taylor--Couette flow. Part 1. Layer formation

Author

Leclercq, Colin, Partridge, Jamie L., Augier, Pierre, Caulfield, Colm-Cille P., Dalziel, Stuart B., and Linden, Paul F.

Subjects
Physics - Fluid Dynamics
Abstract

This paper is the first part of a two-fold study of mixing, i.e. the formation of layers and upwelling of buoyancy, in axially stratified Taylor--Couette flow, with fixed outer cylinder. Using linear analysis and direct numerical simulation, we show the critical role played by non-axisymmetric instability modes, despite the fact that the flow is centrifugally unstable in the sense of Rayleigh's criterion. Interactions between helical modes of opposite handedness leads to the formation of nonlinear coherent structures: (mixed)-ribbons and (mixed)-cross-spirals. These give birth to complex density interface patterns, seemingly appearing and disappearing periodically as the coherent structure slowly rotates around the annulus. These coherent structures seem to be responsible for the formation of layers reported in a recent experiment by Oglethorpe et al. (2013). We distinguish `dynamic layering', instantaneous, localized and caused by the vortical motions, from `static layering' corresponding to the formation of a `staircase profile' in the adiabatically sorted background density. The latter only occurs at large enough Schmidt number, revealing the significant impact of the Schmidt number in the layering process.

Published
2016

6. Nonlinear waves in stratified Taylor--Couette flow. Part 2. Buoyancy flux

Author

Leclercq, Colin, Partridge, Jamie L., Caulfield, Colm-Cille P., Dalziel, Stuart B., and Linden, Paul F.

Subjects
Physics - Fluid Dynamics
Abstract

This paper is the second part of a two-fold study of mixing, i.e. the formation of layers and upwelling of buoyancy, in axially stratified Taylor--Couette flow, with fixed outer cylinder. In a first paper, we showed that the dynamics of the flow was dominated by coherent structures made of a superposition of nonlinear waves. (Mixed)-ribbons and (mixed)-cross-spirals are generated by interactions between a pair of linearly unstable helical modes of opposite `handedness', and appear to be responsible for the formation of well-mixed layers and sharp density interfaces. In this paper, we show that these structures are also fully accountable for the upwards buoyancy flux in the simulations. The mechanism by which this occurs is a positive coupling between the density and vertical velocity components of the most energetic waves. This coupling is primarily caused by diffusion of density at low Schmidt number Sc, but can also be a nonlinear effect at larger Sc. Turbulence was found to contribute negatively to the buoyancy flux at Sc=1,10,16, which lead to the conclusion that mass upwelling is a consequence of chaotic advection, even at large Reynolds number. Artificially isolating the coherent structure therefore leads to excellent estimates of the flux Richardson numbers Ri_f from the DNS. We also used the theoretical framework of Winters et al. (1995) to analyse the energetics of mixing in an open control volume, shedding light on the influence of end effects in the potential energy budget. The potential connection with the buoyancy flux measurements made in the recent experiment of Oglethorpe et al. (2013) is also discussed.

Published
2016

7. Design and testing of a control strategy for a large naturally ventilated office building

Author

Carrilho da Graca, Guilherme, Linden, Paul F., and Haves, Philip

Subjects
Energy conservation, consumption, and utilization, natural ventilation control strategy simulation office building
Abstract

The design for the new Federal Building for San Francisco includes an office tower that is to be naturally ventilated. Each floor is designed to be cross-ventilated, through upper windows that are controlled by the building management system (BMS). Users have control over lower windows, which can be as much as 50 percent of the total openable area. There are significant differences in the performance and the control of the windward and leeward sides of the building, and separate monitoring and control strategies are determined for each side. The performance and control of the building has been designed and tested using a modified version of EnergyPlus. Results from studies with EnergyPlus and CFD are used in designing the control strategy. EnergyPlus was extended to model a simplified version of the airflow pattern determined using CFD. Wind-driven cross-ventilation produces a main jet through the upper openings of the building, across the ceiling from the windward to the leeward side. Below this jet, the occupied regions are subject to a recirculating air flow. Results show that temperatures within the building are predicted to be satisfactory, provided a suitable control strategy is implemented uses night cooling in periods of hot weather. The control strategy has 10 window opening modes. EnergyPlus was extended to simulate the effects of these modes, and to assess the effects of different forms of user behavior. The results show how user behavior can significantly influence the building performance.

Published
2004

9. Air Flow Experiments on a Train Carriage—Towards Understanding the Risk of Airborne Transmission

Author

Woodward, Huw, primary, Fan, Shiwei, additional, Bhagat, Rajesh K., additional, Dadonau, Maksim, additional, Wykes, Megan Davies, additional, Martin, Elizabeth, additional, Hama, Sarkawt, additional, Tiwari, Arvind, additional, Dalziel, Stuart B., additional, Jones, Roderic L., additional, Kumar, Prashant, additional, and Linden, Paul F., additional

Published
2021
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10. Supplementary material for: The ventilation of buildings and other mitigating measures for COVID-19: a focus on wintertime

Author

Burridge, Henry C., Bhagat, Rajesh K., Stettler, Marc E. J., Kumar, Prashant, Ishanki De Mel, Demis, Panagiotis, Hart, Allen, Yyanis Johnson-Llambias, King, Marco-Felipe, Klymenko, Oleksiy, McMillan, Alison, Morawiecki, Piotr, Pennington, Thomas, Short, Michael, Sykes, David, Trinh, Philippe, Wilson, Stephen, Wong, Clint, Wragg, Hayley, Wykes, Megan S. Davies, Iddon, Chris, Woods, Andrew W., Mingotti, Nicola, Neeraja Bhamidipati, Woodward, Huw, Beggs, Clive, Davies, Hywel, Fitzgerald, Shaun, Pain, Christopher, and Linden, Paul F.

Abstract

Supplementary material concerning the spread of COVID-19 focusing on: Natural inputs to ventilation provision, SARS-CoV-2 on hard surfaces, UVGI and COVID-19, and Aerosols in the context of singing, and woodwind & brass musical instruments.

Published
2021
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11. The circular capillary jump

Author

Bhagat, Rajesh Kumar, Linden, Paul F., Bhagat, Rajesh [0000-0002-8928-4534], Linden, Paul [0000-0002-8511-2241], and Apollo - University of Cambridge Repository

Subjects
Physics::Fluid Dynamics, physics.flu-dyn, Fluid Dynamics (physics.flu-dyn), FOS: Physical sciences, Physics - Fluid Dynamics
Abstract

In this paper we re-examine the flow produced by the normal impact of a laminar liquid jet onto an infinite plane when the flow is dominated by surface tension. Over the range of parameters we consider, which are typical of water from a tap over a kitchen sink, it is observed experimentally that after impact the liquid spreads radially over the plane away from the point of impact in a thin film. It is also observed that, at a finite radius, there is an abrupt increase in thickness of the film which has been identified as a hydraulic jump. Once the jump is formed this radius remains constant in time and, further, is independent of the orientation of the surface showing that gravity is unimportant (Bhagat et al., J. Fluid Mech., vol. 851, 2018, R5). We show that the application of conservation of momentum in the film, subject only to viscosity and surface tension and ignoring gravity completely, predicts a singularity in the curvature of the liquid film and consequently a jump in the depth of the film at a finite radius. This location is almost identical to the radius of the jump predicted by conservation of energy and agrees with experimental observations. We also provide the correct boundary condition to be applied at an interface, where there is a change in interfacial area as a result of the fluid flow, that accounts for the energy change associated with fluid molecules’ exchange between the interface and the bulk.

Published
2020

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