TY  - JOUR
Y1  - 2010///
VL  - 35
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-78649854825&doi=10.1016%2fj.energy.2010.07.032&partnerID=40&md5=4778908a66303bbc0ce0dd879374c009
A1  - Khoa, T.D.
A1  - Shuhaimi, M.
A1  - Hashim, H.
A1  - Panjeshahi, M.H.
JF  - Energy
KW  - Aromatic hydrocarbons; Design; Distillation; Exergy; Optimal systems; Optimization; Process control; Retrofitting; Three dimensional; Visualization; Xylene
KW  -  Column performance; Diabatic; Exergy Analysis; Graphical methods; Operating parameters; Optimal design; Optimum designs; Pre-heater; Process optimization; Process simulations; Transport rate; Xylene column
KW  -  Distillation columns
KW  -  correlation; diabatic process; distillation; exergy; experimental design; grassroots level; optimization; visualization; xylene
ID  - scholars1355
N2  - This paper presents two main contributions. Firstly, a new exergy graphical method is proposed for optimal design of distillation column with minimum exergy lost. The method is applicable to both grass-root and retrofit cases, respectively. The effect of design and operating parameters of a distillation column on the exergy lost is graphically visualized by three dimensional exergy analysis curves. The curve shows the correlations between exergy lost, design and operating parameters of a distillation column. This technique can be used as an effective method to reduce the simulation effort to search for the optimum design and operating parameters of a distillation column at minimum exergy lost. Besides, visualization also enhances the engineers' understanding of the column performance. The other contribution is a four-level idealization concept, which is based on three dimensional graphical exergy analysis curves. The concept defines the effect of transport rate and configuration on exergy lost of distillation column. The effectiveness of the method has been demonstrated on a xylene column, which suggested that an implementation of feed pre-heater yields a significant reduction in exergy lost by up to 15.5. © 2010 Elsevier Ltd.
IS  - 12
SN  - 03605442
PB  - Elsevier Ltd
EP  - 5319
AV  - none
SP  - 5309
TI  - Optimal design of distillation column using three dimensional exergy analysis curves
N1  - cited By 26
ER  -