An index for operational flexibility in chemical process design. Part I: Formulation and theory
- 1 April 1985
- journal article
- research article
- Published by Wiley in AIChE Journal
- Vol. 31 (4) , 621-630
- https://doi.org/10.1002/aic.690310412
Abstract
One of the key components of chemical plant operability is flexibility—the ability to operate over a range of conditions while satisfying performance specifications. A general framework for analyzing flexibility in chemical process design is presented in this paper. A quantitative index is proposed which measures the size of the parameter space over which feasible steady‐state operation of the plant can be attained by proper adjustment of the control variables. The mathematical formulation of this index and a detailed study of its properties are presented. Application of the flexibility in design is illustrated with an example.Keywords
This publication has 12 references indexed in Scilit:
- An index for operational flexibility in chemical process design. Part II: Computational algorithmsAIChE Journal, 1985
- Design of resilient processing plants—VIII. A resilience index for heat exchanger networksChemical Engineering Science, 1985
- Improved successive quadratic programming optimization algorithm for engineering design problemsAIChE Journal, 1983
- Optimal process design under uncertaintyAIChE Journal, 1983
- Flexibility and resiliency of process systemsComputers & Chemical Engineering, 1983
- Infeasible path optimization with sequential modular simulatorsAIChE Journal, 1982
- Decomposition strategy for designing flexible chemical plantsAIChE Journal, 1982
- A review of process synthesisAIChE Journal, 1981
- Theoretical and computational aspects of the optimal design centering, tolerancing, and tuning problemIEEE Transactions on Circuits and Systems, 1979
- Optimal Process System Design Under Conditions of RiskIndustrial & Engineering Chemistry Process Design and Development, 1972