Publications and responsibilities
A nonsmooth approach to modelling and optimization – applications to liquefied natural gas processes and work and heat exchange networks
Model reformulations for Work and Heat Exchange Network (WHEN) synthesis problems
The Duran-Grossmann model can deal with heat integration problems with variable process streams. Work and Heat Exchange Networks (WHENs) represent an extension of Heat Exchange Networks. In WHEN problems, the identities of streams (hot/cold) are regarded as variables. The original Duran-Grossmann...
Identifying optimal thermodynamic paths in work and heat exchange network synthesis
The process synthesis problem referred to as work and heat exchange networks (WHENs) is an extension of the classical heat exchanger networks problem considering only temperature and heat. In WHENs, additional properties are pressure and work, and strong interactions exist between temperature...
Work and heat integration—A new field in process synthesis and process systems engineering
The extension from heat integration and design of heat exchanger networks (HENs) to including heating, cooling, and power effects from pressure changing equipment has been referred to as work and heat integration and design of work and heat exchange networks (WHENs). This is an emerging research...
Work and heat integration: An emerging research area
The extension from Heat Integration (HI) and design of Heat Exchanger Networks (HENs) to including heating and cooling effects from pressure changing equipment has been referred to as Work and Heat Integration and design of Work and Heat Exchange Networks (WHENs). This is an emerging research area...