Systems Design, Modeling, and Thermoeconomic Analysis
of Azeotropic Distillation Processes for Organic Waste Treatment and
Recovery in Nylon Plants
- Publication date
- Publisher
Abstract
Nylon-6 and nylon-6,6 processes produce
considerable amount of
organic waste (known as light oil) consisting of <i>n</i>-pentanol, cyclohexanone, and cyclohexene oxide, which are difficult
to separate and recover. This Article proposes six novel process designs
to separate the light oil into three value-added products based on
azeotropic distillation using water as an entrainer. These azeotropic
distillation process designs take into account direct sequence, indirect
sequence, thermal coupled column, and three types of dividing wall
columns (dividing wall at the top, bottom, and middle of columns,
respectively) for entrainer recovery. A conventional distillation
process design for separation of the same light oil is also modeled
and analyzed for comparison. High-fidelity process simulations are
performed for each of the seven process designs in Aspen Plus. We
further conduct exergy analyses and technoeconomic analyses to evaluate
and compare the exergy efficiencies and economic performances of these
seven process designs. The results indicate that the proposed azeotropic
distillation process design with dividing wall at the middle of the
column has the best performance in terms of both exergy efficiency
and total annual cost