화학공학소재연구정보센터
AIChE Journal, Vol.64, No.7, 2472-2485, 2018
Framework for work-heat exchange network synthesis (WHENS)
Work and heat are the two predominant forms of energy in the process industry. Considerable savings can be achieved by synergizing the work and heat requirements of process streams. A generalized framework for integrating heat and work simultaneously is proposed based on a mixed-integer nonlinear programing model for work-heat exchange network synthesis. Starting with a set of streams with known flows, temperatures, and pressures, a network of single-shaft-turbine-compressors with motors/generators, valves, heat exchangers, and utility heaters/coolers is synthesized for minimized total annualized cost. In contrast to existing works, (1) streams are not preclassified as hot/cold or high/low pressure, (2) pressure changes are allowed for streams with no net pressure change, (3) liquid-vapor phase changes are allowed, and (4) phase-based property correlations are used. Successful application of our approach to C3 splitting yields a nonintuitive configuration. Another application of an offshore natural gas liquefaction process is also studied. (c) 2018 American Institute of Chemical Engineers AIChE J, 64: 2472-2485, 2018