Daniel M. Nichols scite author profile

Daniel M. Nichols

5Publications

59Citation Statements Received

48Citation Statements Given

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Kansas State University, West Virginia University, Start Making A Reader Today

Publications

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Micro-Pocket Fission Detectors (MPFDs) for in-core neutron detection

Reichenberger

Unruh

Ugorowski

et al. 2016

Annals of Nuclear Energy

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Neutron sensors capable of real-time measurement of neutrons in high-flux environments are necessary for tests aimed at demonstrating the performance of experimental nuclear reactor fuels and materials in material test reactors (MTRs). In-core Micro-Pocket Fission Detectors (MPFDs) have been studied at Kansas State University for many years. Previous MPFD prototypes were successfully built and tested with promising results. Efforts are now underway to develop advanced MPFDs with radiation-resistant, high-temperature materials capable of withstanding irradiation test conditions in high performance material and test reactors. Stackable MPFDs have been designed, built, and successfully demonstrated as in-core neutron sensors. Advances in the electrodeposition and measurement of neutron reactive material, along with refinements to composition optimization simulations, have enhanced the capabilities of contemporary MPFDs.

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Electrodeposition of uranium and thorium onto small platinum electrodes

Reichenberger

Ito

Ugorowski

et al. 2016

Nuclear Instruments and Methods in Physics Research Section A:

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Preparation of thin U-and Th-coated 0.3 mm diameter Pt working electrodes by the cyclic potential sweep method is described. Uranyl-and thorium hydroxide layers were electrodeposited from ethanol solutions containing 0.02 M natural uranyl and 0.02 M natural thorium nitrate, each with 3.6 M ammonium nitrate. The cell for electrodeposition was specially developed in order to accommodate the small working electrodes for this research by including a working electrode probe, 3-D translation stage, and microscope. The source material deposition was analyzed using digital microscopy and scanning electron microscopy, and confirmed using x-ray fluorescence measurements. The appropriate potential range for electrodeposition was determined to be-0.62 V to-0.64 V for a 0.3 mm diameter Pt working electrode placed 1 cm from the counter electrode. Smooth, uniform deposition was observed near the central region of the working electrode, while surface cracking and crystalline formations were found near the edge of the working electrode. The final procedure for sample substrate preparation, electrolytic solution preparation and electrodeposition are described.

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Simulated Performance of the Micro-Pocket Fission Detector in the Advanced Test Reactor Critical Facility

Nichols

Reichenberger

Maile

et al. 2021

Nuclear Science and Engineering

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Electrodeposition of low-enriched uranium onto small platinum electrodes

Reichenberger

Nichols

Tsai

et al. 2019

Nuclear Instruments and Methods in Physics Research Section A:

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FY17 Report for Instrumentation Development for the Transient Testing Program

Jensen

Condie

Woolstenhulme

et al. 2017

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This report details the technical activities and accomplishment carried out under funding from the Department of Energy (DOE) Nuclear Technology Research and Development (NTRD) program for in-pile instrumentation supporting the transient testing program in FY19. These activities were performed in support of cross-cutting transient testing experiment objectives. The purpose of this report is to provide a summary of key technical work, of particular interest to nuclear irradiation test experimenters and in-pile instrumentation engineers. During FY19, development activities are focused on deployment of devices to perform online measurement of neutron flux, temperature, and mechanical behaviors in nuclear fuels experiments. Specifically, these R&D activities include in-pile investigations at the Transient Reactor Test (TREAT) facility throughout the year. Other in-pile instrumentation R&D activities are being carried out under other DOE programs, which may be recognized but not the focus of this document. A brief summary of activities and accomplishments is first provided for each major activity. More detailed summaries are presented in appendices.

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Daniel M. Nichols

Micro-Pocket Fission Detectors (MPFDs) for in-core neutron detection

Electrodeposition of uranium and thorium onto small platinum electrodes

Simulated Performance of the Micro-Pocket Fission Detector in the Advanced Test Reactor Critical Facility

Electrodeposition of low-enriched uranium onto small platinum electrodes

FY17 Report for Instrumentation Development for the Transient Testing Program

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