Title of article :
Significant thermal energy reduction in lactic acid production process
Author/Authors :
Mujtaba، نويسنده , , Iqbal M. and Edreder، نويسنده , , Elmahboub A. and Emtir، نويسنده , , Mansour، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2012
Abstract :
Lactic acid is widely used as a raw material for the production of biodegradable polymers and in food, chemical and pharmaceutical industries. The global market for lactic acid is expected to reach 259 thousand metric tons by the year 2012. For batch production of lactic acid, the traditional process includes the following steps: (i) esterification of impure lactic acid with methanol in a batch reactor to obtain methyl lactate (ester), (ii) separation of the ester in a batch distillation, (iii) hydrolysis of the ester with water in a batch reactor to produce lactic acid and (iv) separation of lactic acid (in high purity) in a batch distillation. Batch reactive distillation combines the benefit of both batch reactor and batch distillation and enhances conversion and productivity (Taylor and Krishna, 2000 [1]; Mujtaba and Macchietto, 1997 [2]). Therefore, the first and the last two steps of the lactic acid production process can be combined together in batch reactive distillation (Fig. 1) processes. However, distillation (batch or continuous) is an energy intensive process and consumes large amount of thermal energy (via steam). This paper highlights how significant (over 50%) reduction in thermal energy consumption can be achieved for lactic acid production process by carefully controlling the reflux ratio but without compromising the product specification. In this paper, only the simultaneous hydrolysis of methyl lactate ester and the separation of lactic acid using batch reactive distillation is considered.
Keywords :
lactic acid , Hydrolysis , Batch reactive distillation , Optimisation , Energy reduction , Reflux ratio policy
Journal title :
Applied Energy
Journal title :
Applied Energy