Long Term Investment and Maintenance Planning for Heat Exchanger Network Retrofit

článek v časopise ve Web of Science, Jimp

angličtina

Process Optimisation has been the core topic in chemical process industries for decades. However, the performance of the asset strongly influences the production efficiency as well. In the case of Heat Exchanger Network (HEN), the retrofit decisions are often aimed to maximise energy savings and minimise the associated cost. However, the age and performance of heat exchangers have a great influence on the HEN efficiency as well. This study brings innovative retrofit algorithms, integrating exchangers’ lifetime and reliability functions to visualise the benefits of the hybrid process and asset optimisation. The HEN retrofit structures are optimised, considering various heat intensification methods. The model is formulated based on the novel concept of Shifted Retrofit Thermodynamic Grid Diagram (SRTGD). A Mixed Integer Linear Programming (MILP) model is formulated for the investment and maintenance planning. The operating life of the network is discretised into multiple periods, and a decision is made within each period: whether to upgrade the heat exchangers, purchase new heat exchangers – for replacement or adding to the network, maintain the heat exchangers or perform nothing. Two realistic case studies are used to elucidate the application of the method. Under a 20 y planning horizon, the Net Present Value (NPV) obtained are higher than the previous works, i.e. 17% higher for case study 1 with 51% utility savings, and 14% higher for case study 2 with 74% utility savings. The proposed HEN retrofit decisions are proven to be cost-effective. A graphical tool has been developed to track the reliability and maintenance status of the exchangers to provide a significant guide to the economically optimum decisions.

Asset optimisation; Heat exchanger network retrofit; Optimum investment and maintenance planning Shifted Retrofit Thermodynamic Grid Diagram (SRTGD); Process optimisation; Chemical industry; Cost effectiveness; Energy conservation; Heat exchangers; Integer programming; Maintenance; Planning; Retrofitting; Chemical process industry; Heat exchanger network; long-term investment; Maintenance planning; Mixed integer linear programming model; Production efficiency; Reliability functions; The net present value (NPV); Investments

Chin, H.H., Wang, B., Varbanov, P.S., Klemeš, J.J., Zeng, M., Wang, Q.W.

1. 12. 2020

Elsevier Ltd

0306-2619

APPLIED ENERGY

279

Spojené království Velké Británie a Severního Irska

115713

115713

10

https://www.sciencedirect.com/science/article/pii/S030626192031206X?via%3Dihub