Corey James scite author profile

This work presents a critical review of the use of exergy based control and optimization for efficiency improvements in energy networks, with a background of exergy based analysis given for context. Over the past three decades, a number of studies using exergy were conducted to gain a performance advantage for high energy consumption systems and networks. Due to their complexity and the increased scale of the systems, the opportunity to misuse energy inevitability leads to inefficient operations. The studies accomplished in this area are grouped into either control or optimization to highlight each method's ability to minimize system irreversibilities that lead to exergy destruction. The exergy based optimization and control studies featured demonstrate substantial improvements (as high as 40%) over traditional methods based on the first law of thermodynamics. This paper reviews the work completed in the area of exergy based optimization and control as of the end of September 2019, outlines the progress made, and identifies specific areas where future work can advance this area of study. A relatively small amount of publications are available compared to other fields, with most work occurring in the area of exergy based multi-objective optimization.

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A simple approach for adding thixotropy to an elasto-visco-plastic rheological model to facilitate structural interrogation of human blood

Armstrong

Scully

Clark

et al. 2021

Journal of Non-Newtonian Fluid Mechanics

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Structure-rheology elucidation of human blood via SPP framework and TEVP modeling

Armstrong

Baker

Trump

et al. 2021

Korea-Aust. Rheol. J.

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Minimizing the Effect of Substantial Perturbations in Military Water Systems for Increased Resilience and Efficiency

2017

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Abstract:A model predictive control (MPC) framework, exploiting both feedforward and feedback control loops, is employed to minimize large disturbances that occur in military water networks. Military installations' need for resilient and efficient water supplies is often challenged by large disturbances like fires, terrorist activity, troop training rotations, and large scale leaks. This work applies the effectiveness of MPC to provide predictive capability and compensate for vast geographical differences and varying phenomena time scales using computational software and actual system dimensions and parameters. The results show that large disturbances are rapidly minimized while maintaining chlorine concentration within legal limits at the point of demand and overall water usage is minimized. The control framework also ensures pumping is minimized during peak electricity hours, so costs are kept lower than simple proportional control. Thecontrol structure implemented in this work is able to support resiliency and increased efficiency on military bases by minimizing tank holdup, effectively countering large disturbances, and efficiently managing pumping.

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Framework for analyzing placement of and identifying opportunities for improving technical communication in a chemical engineering curriculum

Pfluger

Armstrong

Corrigan

et al. 2020

Education for Chemical Engineers

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Corey James

A Review of Exergy Based Optimization and Control

A simple approach for adding thixotropy to an elasto-visco-plastic rheological model to facilitate structural interrogation of human blood

Structure-rheology elucidation of human blood via SPP framework and TEVP modeling

Minimizing the Effect of Substantial Perturbations in Military Water Systems for Increased Resilience and Efficiency

Framework for analyzing placement of and identifying opportunities for improving technical communication in a chemical engineering curriculum

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