Mary E. Taylor scite author profile

Seven methods of spatial interpolation were compared to determine their suitability for estimating daily mean wind speed surfaces, from data recorded at nearly 190 locations across England and Wales. The eventual purpose of producing such surfaces is to help estimate the daily spread of pathogens causing crop diseases as they move across regions. The interpolation techniques included four deterministic and three geostatistical methods. Quantitative assessment of the continuous surfaces showed that there was a large difference between the accuracy of the seven interpolation methods and that the geostatistical methods were superior to deterministic methods. Further analyses, testing the reliability of the results, showed that measurement accuracy, density, distribution and spatial variability had a substantial influence on the accuracy of the interpolation methods. Independent wind speed data from ten other dates were used to confirm the robustness of the best interpolation methods.  Crown

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Transmission and Reception by Ultra-Wideband (UWB) Antennas

Ghosh

Taylor

et al. 2006

IEEE Antennas Propag. Mag.

108

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Human exposure to respiratory aerosols in a ventilated room: Effects of ventilation condition, emission mode, and social distancing

Pei

Taylor

Rim

2021

Sustainable Cities and Society

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Solving large complex problems using a higher-order basis: parallel in-core and out-of-core integral-equation solvers

Zhang

Taylor

Sarkar

et al. 2008

IEEE Antennas Propag. Mag.

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Relationship between total dissolved solids and electrical conductivity in Marcellus hydraulic fracturing fluids

Taylor

Elliott

Navitsky

2018

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The production of hydraulic fracturing fluids (HFFs) in natural gas extraction and their subsequent management results in waste streams highly variable in total dissolved solids (TDS). Because TDS measurement is time-consuming, it is often estimated from electrical conductivity (EC) assuming dissolved solids are predominantly ionic species of low enough concentration to yield a linear TDS-EC relationship: TDS (mg/L) = k × EC (μS/cm) where k is a constant of proportionality. HHFs can have TDS levels from 20,000 to over 300,000 mg/L wherein ion-pair formation and non-ionized solutes invalidate a simple TDS-EC relationship. Therefore, the composition and TDS-EC relationship of several fluids from Marcellus gas wells in Pennsylvania were assessed. Below EC of 75,000 μS/cm, TDS (mg/L) can be estimated with little error assuming k = 0.7. For more concentrated HFFs, a curvilinear relationship (R = 0.99) is needed: TDS = 27,078e. For hypersaline HFFs, the use of an EC/TDS meter underestimates TDS by as much as 50%. A single linear relationship is unreliable as a predictor of brine strength and, in turn, potential water quality and soil impacts from accidental releases or the suitability of HFFs for industrial wastewater treatment.

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Mary E. Taylor

A comparison of spatial interpolation methods to estimate continuous wind speed surfaces using irregularly distributed data from England and Wales

Transmission and Reception by Ultra-Wideband (UWB) Antennas

Human exposure to respiratory aerosols in a ventilated room: Effects of ventilation condition, emission mode, and social distancing

Solving large complex problems using a higher-order basis: parallel in-core and out-of-core integral-equation solvers

Relationship between total dissolved solids and electrical conductivity in Marcellus hydraulic fracturing fluids

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