posted on 2015-05-13, 00:00authored byLluvia
M. Ochoa-Estopier, Megan Jobson, Lu Chen, Clemente A. Rodrı́guez-Forero, Robin Smith
This
is the second part of a series that applies optimization to
maximize the productivity and minimize operating costs of existing
heat-integrated crude oil distillation systems. This paper presents
a two-level retrofit approach for heat exchanger networks. In the
first level, simulated annealing proposes topology modifications to
the existing network (e.g., adding, removing, and relocating heat
exchangers; changing the heat loads of heat exchangers, adding and
removing stream splitters, and changing the split fraction of stream
splitters). In the second level, a repair algorithm
addresses the violation of constraints. These constraints consider
the minimum temperature approach, stream enthalpy balances, and existing
heat transfer areas. The repair algorithm is formulated as a nonlinear
least-squares problem. Temperature-dependent thermal properties are
considered in this work for the accurate prediction of stream temperatures.
Two case studies illustrate the application of the proposed methodology
to decrease total annualized costs.