Materials News
Biobased materials embrace improvements The still young and fast growing bioplastics market, with an estimated growth of 20% a year, is continuously being updated to cater to new innovations and further the sustainability issues. Old hand PLA gets into the swing of things Swedish firm Perstorp has introduced renewable Capa for Bioplastics, the world’s first of its kind concept which builds on the Capa lactide technology. The renewable concept enables freedom to design polymers that are flexible or hard, transparent or crystalline, tough or rigid and with a targeted melting point and polarity. Market indications show that these products are likely to deliver what many customers are looking for in terms of biobased content and performance. Renewable Capa has been evaluated both in terms of compostability and biobased content and is also certified as biobased by the independent Belgian certification body Vinçotte. Perstorp says it will continue to focus its efforts on three fast-growing bioplastic segments – paper coatings, bags and films, and packaging. Capa for Bioplastics is a biopolymer enhancer that is said to offer stability and compatibility, improved mechanical properties, flexibility at low temperatures, and biodegradability. This effort is supported by Perstorp’s industrial production and pilot facilities in Warrington, UK and its Swedish innovation centre in Perstorp, for bioplastic formulations. Currently, the lactic acid used to produce PLA has been based on first-generation feedstocks like cane sugar, sugar beet, corn and cassava, are grown following principles of sustainable agriculture, yet the debate still continues on whether these do not compete with food production. Corbion Purac claims it is the first in the world to have successfully made PLA bioplastic resin from second generation feedstocks that are not suitable for human consumption, and include plant-based materials like bagasse, corn stover, wheat straw and wood chips. In order to fully commercialise and bring PLA based on second generation feedstocks to the market in commercial quantities, Corbion invites all interested brandowners and converters to join a consortium in order to accelerate the market introduction of second generation feedstock bioplastics. Biosuccinic acid developments Following the commissioning and opening of BioAmber’s joint venture plant with Mitsui Chemicals in Sarnia, Canada, it has made the first shipments of its biobased succinic acid. The US$141.5 million plant has a capacity of 30,000 tonnes/year of succinic acid, making it the largest of its kind in the world. It is expected to increase
8
NOVEMBER / DECEMBER 2015
BioAmber has started shipping its succinic acid from Sarnia
production volumes progressively to reach full capacity in 2017. Succinic acid is produced via a fermentation process that makes use of a proprietary yeast, BioAmber licensed exclusively from Cargill. Although originally developed to produce lactic acid, the yeast was found to be able to ferment at a low pH and, contrary to other organisms that were experimented with, able to tolerate high concentrations of succinic acid. BioAmber and Cargill collaborated closely on the development of this yeast technology. BioAmber says the biosuccinic acid produced is of higher quality than previously produced at the demonstration plant located in France. Minneapolis-based BioAmber has also entered into a technology license with Johnson Matthey Davy Technologies (JM Davy) that will enable the construction of a 100,000-tonne/year plant that uses biosuccinic acid as the feedstock to produce 70,000 tonnes of BDO and 30,000 tonnes of tetrahydrofuran (THF). It has also secured the rights to license the JMD technology for two additional BDO/THF plants. By licensing JM Davy's proven BDO/THF technology, BioAmber says it accelerates the process, saving time and money for setting up the plant, which it plans to commission in 2018. BioAmber has already signed a 15 year take-or-pay agreement with Vinmar International for 100% of the output from the plant's 100,000 tonne-year BDO and THF capacity. BDO and THF are used to make engineering plastics, polyurethanes, biodegradable polyesters, spandex and other speciality chemicals.