Approximation of Non-linear Cost Functions in P-graph Structures
Ong, B.H.Y.
Walmsley, T.G.
Atkins, M.J.
Walmsley, M.R.W.
Neale, J.R.
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How to Cite

Ong B., Walmsley T., Atkins M., Walmsley M., Neale J., 2016, Approximation of Non-linear Cost Functions in P-graph Structures, Chemical Engineering Transactions, 52, 1093-1098.
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Abstract

P-graph employs combinatorial and optimisation algorithms to solve process network synthesis (PNS) problem. However, the P-graph framework requires linear cost functions when optimising PNS problems. As a result, a high error between the user-input linear cost function and the actual non-linear cost function is likely to occur. This paper presents a new method to incorporate multiple linear cost functions in parallel for raw materials, operating units and products in P-graph problems to accurately approximate the non-linear functional form of most cost estimation functions. This was achieved by dividing the original cost functions into multiple equal segments that then could be individually represented by linear sub-functions. Application of the new method to a simple wood-to-fuel processing example influences the optimal P-graph process structure such that a previously uneconomic side-product route (pyrolysis) becomes economic and increases the overall profit. The results also demonstrate that the linear approximation error decreases with increasing numbers of segments and linear cost sub-functions. The time increase to solve the new problem structure, which has over threefold more operating units, is negligible for this simple case, but may be significant for more complex problems.
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