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Damon Honnery
Monash University
PhysicsDiesel fuelChemistryNozzleClassical mechanics
252Publications
31H-index
3,049Citations
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Publications 246
Newest
#1Bhavraj S. Thethy (Monash University)
#2Mohammad Rezay Haghdoost (Technical University of Berlin)
Last. Kilian Oberleithner (Technical University of Berlin)H-Index: 16
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#1Mohammad Rezay Haghdoost (Technical University of Berlin)
#2Bhavraj S. Thethy (Monash University)
Last. Kilian Oberleithner (Technical University of Berlin)H-Index: 16
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#1Patrick MoriartyH-Index: 25
#1Patrick M. MoriartyH-Index: 29
Last. Damon HonneryH-Index: 31
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For millennia, humans relied almost entirely on renewable energy (RE), largely biomass, for their energy needs. Over the past century, fossil fuels (FFs) have not only largely replaced RE, but have enabled a many-fold rise in total energy use. This FF dominance changed the way we think about and accounted for energy use. If (as at present) the world essentially continues to ignore climate change, eventual resource depletion will force conversion to RE and, perhaps, nuclear energy will once again...
2 CitationsSource
#1Hui Zhao (Monash University)H-Index: 1
#2Duong Nguyen (Monash University)H-Index: 94
Last. Damon Honnery (Monash University)H-Index: 31
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Abstract Understanding the factors that lead to breakup of liquid droplets is of interest in many applications. Liquid droplet breakup processes are typically broken into regimes based on a Weber number calculated based on an average flow velocity ( Solsvik et al., 2013 ). In turbulent flows, the instantaneous velocity may differ significantly from the average velocity. Here an experimental investigation on the role of turbulence in the breakup process is undertaken, whose continuous phase is ga...
1 CitationsSource
#1Duong Nguyen (Monash University)H-Index: 94
#2Damon Honnery (Monash University)H-Index: 31
Source
#1Patrick M. MoriartyH-Index: 29
#1Patrick MoriartyH-Index: 25
Last. Damon HonneryH-Index: 31
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Given that global energy use today is still dominated by fossil fuels, there is an urgent need to rapidly reduce its use in order to avert serious climate change. However, the alternatives to fossil fuels—renewable and nuclear energy—are more expensive, and have so far done little to displace fossil fuels. Accordingly, reducing energy use must play an important part in both averting climate change and avoiding the depletion of high energy return easily recoverable fossil fuel reserves. This pape...
4 CitationsSource
#1Elaheh Neshat (SUT: Sahand University of Technology)H-Index: 8
#2Mehrdad Nazemian (SUT: Sahand University of Technology)H-Index: 1
Last. Damon Honnery (Monash University)H-Index: 31
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#1Patrick M. MoriartyH-Index: 29
#1Patrick MoriartyH-Index: 25
Last. Damon HonneryH-Index: 31
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Because of the near-term risk of extreme weather events and other adverse consequences from climate change, and, at least in the longer term, global fossil fuel depletion, there is world-wide interest in shifting to noncarbon energy sources, especially renewable energy (RE). Because of possible limitations on conventional renewable energy sources, researchers have looked for ways of overcoming these shortcomings by introducing radically new energy technologies. The largest RE source today is bio...
2 CitationsSource
#1Patrick Moriarty (Monash University, Caulfield campus)H-Index: 18
#2Damon Honnery (Monash University, Clayton campus)H-Index: 31
Abstract A number of official energy forecasts—including those compatible with the aspirational 1.5 °C Paris Accord global temperature rise limit—see both global primary and net energy use continuing to rise, even out to 2100. Various technologies, including greatly increased use of renewable and nuclear energy, negative emission technologies such as direct air capture, and geoengineering are proposed as approaches for meeting the 1.5 °C target. In contrast, we argue that meeting this target and...
3 CitationsSource
#1Daniel J. Duke (Monash University)H-Index: 15
#2Harry N. Scott (Monash University)
Last. Damon Honnery (Monash University)H-Index: 31
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Abstract This paper presents in situ time-resolved drug mass fraction measurements in pressurised metered dose inhaler (PMDI) sprays, using a novel combination of synchrotron X-ray fluorescence and scattering. Equivalent suspension and solution formulations of ipratropium bromide in HFA-134a propellant were considered. Measurements were made both inside the expansion chamber behind the nozzle orifice, and in the first few millimeters of the spray where droplet and particle formation occur. We ob...
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