Abstract
This paper is devoted to develop an approximation method for scheduling refinery crude oil operations by taking into consideration the demand uncertainty. In the stochastic model the demand uncertainty is modeled as random variables which follow a joint multivariate distribution with a specific correlation structure. Compared to deterministic models in existing works, the stochastic model can be more practical for optimizing crude oil operations. Using joint chance constraints, the demand uncertainty is treated by specifying proximity level on the satisfaction of product demands. However, the joint chance constraints usually hold strong nonlinearity and consequently, it is still hard to handle it directly. In this paper, an approximation method combines a relax-and-tight technique to approximately transform the joint chance constraints to a serial of parameterized linear constraints so that the complicated problem can be attacked iteratively. The basic idea behind this approach is to approximate, as much as possible, nonlinear constraints by a lot of easily handled linear constraints which will lead to a well balance between the problem complexity and tractability. Case studies are conducted to demonstrate the proposed methods. Results show that the operation cost can be reduced effectively compared with the case without considering the demand correlation.
Highlights
In recent years refineries have to explore all potential costsaving strategies due to intense competition arising from fluctuating product demands and ever-changing crude prices
Scheduling of crude oil operations is a critical task in the overall refinery operations [1,2,3]
The optimization of crude oil scheduling operations consists of three parts [4]
Summary
In recent years refineries have to explore all potential costsaving strategies due to intense competition arising from fluctuating product demands and ever-changing crude prices. The crude oil scheduling problem has received considerable attention from researchers and different models have been developed on the basis of deterministic mathematical programming techniques. Several recent papers applied chance constrained programming models to the refinery short-term crude oil scheduling problem [13,14,15,16]. We will propose a stochastic multiperiod model with considering the uncertain crude mix demand correlations. To deal with the uncertainty of the model, it is important to adjust the planning policy and update the corresponding schedule and the correlation structure of the demand at the end of each time period based on the real sales [17]. A test problem involving correlated random crude mix demands is solved, highlighting various modeling and algorithmic issues.
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