13 research outputs found

    Large-scale unit commitment under uncertainty: an updated literature survey

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    The Unit Commitment problem in energy management aims at finding the optimal production schedule of a set of generation units, while meeting various system-wide constraints. It has always been a large-scale, non-convex, difficult problem, especially in view of the fact that, due to operational requirements, it has to be solved in an unreasonably small time for its size. Recently, growing renewable energy shares have strongly increased the level of uncertainty in the system, making the (ideal) Unit Commitment model a large-scale, non-convex and uncertain (stochastic, robust, chance-constrained) program. We provide a survey of the literature on methods for the Uncertain Unit Commitment problem, in all its variants. We start with a review of the main contributions on solution methods for the deterministic versions of the problem, focussing on those based on mathematical programming techniques that are more relevant for the uncertain versions of the problem. We then present and categorize the approaches to the latter, while providing entry points to the relevant literature on optimization under uncertainty. This is an updated version of the paper "Large-scale Unit Commitment under uncertainty: a literature survey" that appeared in 4OR 13(2), 115--171 (2015); this version has over 170 more citations, most of which appeared in the last three years, proving how fast the literature on uncertain Unit Commitment evolves, and therefore the interest in this subject

    Studies in bubble formation—I bubble formation under constant flow conditions

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    A model based on two step mechanism of bubble formation is proposed. The resulting equations are used to explain the discrepancies existing in the literature. Data have been collected over a wide range of variables to test the model

    Heat transfer to non-Newtonian fluids in coiled pipes in laminar flow

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    Data on isothermal pressure drop and heat transfer to non-Newtonian fluids (both pseudoplastic and dilatant) in different coiled pipes (helical and spiral coils) at constant tube wall temperature conditions are presented. The present data have been compared with the corresponding correlations and theoretical results available for straight and coiled pipes in the literature, both for Newtonian and non-Newtonian fluid flow and heat transfer. A correlation is set up which can represent the present data as well as the data available in literature for Newtonian fluids

    Correlation of thermodynamic properties of chloromethanes

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    A correlation for entropy and enthalpy based on the two-parameter law of corresponding states and the reference substance concept has been obtained. For 199 points tested, the over-all average absolute deviation and the maximum deviations in the calculated values of entropy with the available data are 0.74 and 7.20%. The corresponding deviations of enthalpy are 1.86 and 15.0%, respectively. A compressibility chart for chloromethanes has been made and shown to be superior to existing charts. For 102 points tested, the average absolute and maximum deviations in the compressibilities were 1.80 and 19.5%, respectively

    A Generalized Equation for Diffusion in Liquids.

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    Correction-A Generalized Equation for Diffusion in Liquids

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    Catalytic Dehydrogenation of 2-Propanol to Acetone

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    Benedict-Webb-Rubin equation of state constants for N2O4 ⇄ 2NO2,NO,and O2

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    Benedict-Webb-Rubin equation of state constants for NO, O2, and the equilibrium mixture N2O4 ⇄ 2NO2 are reported

    Corrections-A Generalized Equation for Diffusion in Liquids

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