Joshua M. Bishop scite author profile

Joshua M. Bishop

3Publications

24Citation Statements Received

102Citation Statements Given

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ARC Resources (Canada), Bishop's University

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Measurement and simulation of subsurface tracer migration to tile drains in low permeability, macroporous soil

Bishop

Callaghan

Cey

et al. 2015

Water Resources Research

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Multiyear monitoring and simulation of a conservative tracer was used in this study to investigate preferential flow and macropore-matrix interactions in low permeability, macroporous soil. 2,6-Difluorobenzoic acid (DFBA) tracer was applied to a 20 3 20 m drip irrigated test plot situated over two tile drains. Tracer movement over the 2009 and 2010 field seasons was monitored using tile drain effluent, suction lysimeters, monitoring wells, and soil cores. Despite similar volumes of water application to the plot in each season, 10 times more water and 14 times more DFBA were captured by the drains in 2010 due to wetter regional hydrologic conditions. The importance of preferential flow along macropores was shown by rapid DFBA breakthrough to the tile (<47 h), and DFBA detections in sand units below the tile drains. Preferential flow resulted in less than 8% of the DFBA mass being captured by the tiles over both years. With much of the DFBA mass (75%) retained in the upper 0.25 m of the soil at the end of 2009, numerical simulations were used to quantify the migration of this in situ tracer during the subsequent 2010 field season. Dual permeability and dual porosity models produced similar matches to measured tile drain flows and concentrations, but solute leaching was captured more effectively by the dual permeability formulation. The simulations highlighted limitations in current descriptions for small-scale mass transfer between matrix and macropore domains, which do not consider time-dependent transfer coefficients or nonuniform distributions of solute mass within soil matrix blocks.

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Utilization of Density Logs to Delineate Desaturated Zones and Estimate Porosity in Cased Holes

Bishop

1970

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American Institute of Mining, Metallurgical, and Petroleum Engineers, Inc. This paper was prepared for the 41st Annual California Regional Meeting of the Society of Petroleum Engineers of AIME, held in Santa Barbara, Calif., Oct. 28–30, 1970. Permission to copy is restricted to an abstract of not more than 300 words. Illustrations may not be copied. The abstract should contain conspicuous acknowledgment of where and by whom the paper is presented. Publication elsewhere after publication in the JOURNAL OF PETROLEUM TECHNOLOGY or the SOCIETY OF publication in the JOURNAL OF PETROLEUM TECHNOLOGY or the SOCIETY OF PETROLEUM ENGINEERS JOURNAL is usually granted upon request to the Editor PETROLEUM ENGINEERS JOURNAL is usually granted upon request to the Editor of the appropriate journal, provided agreement to give proper credit is made. Discussion of this paper is invited. Three copies of any discussion should be sent to the Society of Petroleum Engineers office. Such discussion may be presented at the above meeting and, with the paper, may be considered for publication in one of the two SPE magazines. Abstract Density and neutron logs have been used in combination to both define and discriminate between desaturated and low porosity zones in cased holes at Coalinga and Mount Poso fields. Preliminary results further indicate that Preliminary results further indicate that cased hole density log readings can be used to estimate open-hole density log readings when favorable casing - cement - hole size condition exist. This technique should have utility in evaluating old wells where porosity control is presently not available and in providing the presently not available and in providing the option to run the formation density log after casing is set when well conditions preclude running the log in the open hole. Introduction Many shallow oil fields in the San Joaquin Valley of California are plagued with extensive reservoir liquid desaturation caused by gravity drainage and/or reservoir cementation. Since both conditions have a profound effect on the planning and ultimate success of supplemental planning and ultimate success of supplemental recovery projects, a considerable amount of engineering effort has been expended to determine the location and degree of reservoir desaturation and cementation. Knowledge concerning the location and extent A desaturated and cemented zones is generally available on only the relatively few wells which have been recently drilled and logged with both resistivity and porosity devices. This unfortunate state of affairs has occurred because: 1. Many wells were drilled before the advent of wireline logging, 2. Many logged wells have only a resistivity record, which alone cannot be used to discriminate between desaturated and cemented zones, and 3. Much of the desaturation occurred after the drilling of the majority of the wells. Many fields have been, or are nearly, fully developed; thus information concerning desaturation and cementation must be derived from the existing cased holes. Cased-hole gamma ray-neutron logs can be successfully used to define sands and shales and to locate porous, liquid-filled zones. However, the neutron log cannot, in general, discriminate between liquid-filled zones of decreasing porosity and porous zones that are desaturated to varying degrees. The problem of discriminating between such zones is problem of discriminating between such zones is solved in the open hole by running a neutron log with either the sonic or density log and crossplotting the apparent log porosities. No such technique has been previously available in cased holes. The density log was developed and has been utilized strictly as an open-hole logging device.

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The Influence of Macropores on Flow and Transport to Subsurface Drains in Low Permeability, Salt Affected Soils

Bishop¹

2012

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Joshua M. Bishop

Measurement and simulation of subsurface tracer migration to tile drains in low permeability, macroporous soil

Utilization of Density Logs to Delineate Desaturated Zones and Estimate Porosity in Cased Holes

The Influence of Macropores on Flow and Transport to Subsurface Drains in Low Permeability, Salt Affected Soils

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