D
Dylan J. Irvine
Researcher at Flinders University
Publications - 47
Citations - 968
Dylan J. Irvine is an academic researcher from Flinders University. The author has contributed to research in topics: Groundwater & Aquifer. The author has an hindex of 17, co-authored 40 publications receiving 716 citations. Previous affiliations of Dylan J. Irvine include Monash University, Clayton campus & Monash University.
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Bridging the Gap Between Research and Practice.
TL;DR: In an academic environment that is often focused on publications and citations, the inclusion of data, scripts, and spreadsheets generated in the research process with articles allows researchers to have wider impact by influencing the way that bootson-the-ground practitioners address real-world problems.
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Heterogeneous or homogeneous? Implications of simplifying heterogeneous streambeds in models of losing streams
TL;DR: In this paper, a physically based numerical model was used to generate synthetic surface water-groundwater infiltration flux data using heterogeneous streambeds for losing connected, losing transitional and losing disconnected streams.
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Experimental evaluation of the applicability of phase, amplitude, and combined methods to determine water flux and thermal diffusivity from temperature time series using VFLUX 2.
Dylan J. Irvine,Dylan J. Irvine,Laura K. Lautz,Martin A. Briggs,Ryan P. Gordon,Jeffrey M. McKenzie +5 more
TL;DR: In this paper, the A r Δ ϕ method was used to estimate thermal diffusivity (δ e ) without assuming any thermal parameters, although the value of such output has not been broadly tested.
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Using Diurnal Temperature Signals to Infer Vertical Groundwater-Surface Water Exchange.
Dylan J. Irvine,Dylan J. Irvine,Martin A. Briggs,Laura K. Lautz,Ryan P. Gordon,Jeffrey M. McKenzie,Ian Cartwright,Ian Cartwright +7 more
TL;DR: This review provides a synthesis of heat tracing using diurnal temperature oscillations, including details on optimal sensor selection and deployment, data processing, model parameterization, and an overview of computing tools available.
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Theory, tools, and multidisciplinary applications for tracing groundwater fluxes from temperature profiles
TL;DR: In this article, the authors highlight relevant theory, thermal data collection techniques, and recent diverse field applications to stimulate further multidisciplinary uptake of thermal groundwater tracing methods that rely on temperature-depth profiles.