Technological aspects of the production of biodegradable polymers and other chemicals from renewable sources using lactic acid

Lactic acid produced from renewable sources is used for the production of polylactic acid and lactic acid based biodegradable polymers. However, large-scale production of biodegradable polymers and other large-tonnage lactic acid-based chemical products is limited by the difficulties of production-related waste and low productivity. To overcome these problems, we developed a method of ammonium lactate production from carbohydrates using a membrane bioreactor and semicontinuous cultivation with controlled parameters. During the 130 cycles, the average specific productivity of the biochemical reactor for ammonium lactate was 56 g L-1 h(-1), which was 10-fold higher than that obtained using traditional industrial processes. This method of using concentrated biomass in membrane reactors may also be applied in other similar processes of microbial transformation of organic substances. To significantly reduce the waste produced in the form of calcium sulfate, lactic add derivatives were isolated from the butyl lactate intermediate without calcium sulfate formation. A method for the production of large-volume chemicals such as propylene glycol was also developed through hydrogenation of butyl lactate on a copper oxide silica catalyst This highly effective process gave 99% yield and 99% selectivity for propylene glycol formation. Our data on the development and improvement of the production processes of lactic acid and its derivatives pave the way for the development of competitive industrial processes for the production of biodegradable polymers and large-tonnage chemical products based on renewable raw materials. (C) 2016 Elsevier Ltd. All rights reserved.