T. Bacci, A. Frangioni, C. Gentile, Kostas Tavlaridis-Gyparakis
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引用次数: 0
摘要
机组承诺问题是一个复杂的混合整数非线性规划问题,起源于电力生产领域。虽然它出现在垄断制度中,但即使在自由市场制度中,这个问题仍然受到高度重视,它只是大问题中的一个子问题。历史上,它通常是用拉格朗日松弛法求解的。然而,混合整数(线性和凸)规划问题的商业求解器所取得的进步使这种方法成为一种有吸引力的选择。T. Bacci, a . Frangioni, C. Gentile和K. Tavlaridis-Gyparakis提出了第一个混合整数非线性规划公式,该公式包含变量和约束的多项式数,描述了包含所有典型约束和凸发电成本的单个火力发电机组的机组承诺问题可行解的凸包。要证明这个公式是精确的,需要一个关于具有独立兴趣的特殊结构函数的凸包络的新结果。利用这一单一发电机组的新公式推导出一般机组承诺问题的三个新公式,并与现有的新公式进行了有效性测试。
New Mixed-Integer Nonlinear Programming Formulations for the Unit Commitment Problems with Ramping Constraints
Mixed-Integer Formulations for Power Production Problems The unit commitment problem is a complex mixed-integer nonlinear program that originates in the field of power production. Although it arises in a monopolistic system, there is still great attention to this problem even in a free-market regime, where it constitutes only a subproblem of larger ones. Historically, it was usually solved by Lagrangian relaxation methods. However, the advances achieved by commercial solvers of mixed-integer (linear and convex) programming problems have made such approaches an attractive option. T. Bacci, A. Frangioni, C. Gentile, and K. Tavlaridis-Gyparakis present the first mixed-integer nonlinear programming formulation with a polynomial number of both variables and constraints that describes the convex hull of the feasible solutions of the unit commitment problem with a single thermal generation unit, comprising all typical constraints and convex power generation costs. Proving that the formulation is exact requires a new result about the convex envelope of specially structured functions that can have independent interest. This new formulation for a single power generation unit is used to derive three new formulations for the general unit commitment problem whose effectiveness has been tested against the state-of-art formulation.
期刊介绍:
Military Operations Research is a peer-reviewed journal of high academic quality. The Journal publishes articles that describe operations research (OR) methodologies and theories used in key military and national security applications. Of particular interest are papers that present: Case studies showing innovative OR applications Apply OR to major policy issues Introduce interesting new problems areas Highlight education issues Document the history of military and national security OR.