ACC: Development of biobased polyol

ACC: Development of biobased polyols for green polyurethanes has great potential

19 September 2014 12:53 Source:ICIS Chemical Business
As the interest in sustainable products continues, demand for materials made from renewables-based poly-urethanes also continues to grow.

Natural oil polyols (NOPs) and sugars, which have long been raw materials for alkyd paints, are now used to make polyurethane (PU) foams for automotive applications, while thermoplastic polyurethanes (TPUs) from biobased polyester polyols find use in sporting goods, particularly shoes, and medical devices.

Commercialisation of a wider range of higher-performing, cost-competitive biobased polyols from both established polyol manufacturers and newer companies focused on the production of renewable materials will drive further growth of the sustainable PU segment.

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Biobased polyols can be drop-in replacements for existing polyols, as they have similar structures and properties but are derived from renewable raw materials rather than petrochemicals, as well as substitutes for existing polyols that have slightly different structures and properties, or new compounds with entirely new functionality and performance characteristics.
As well as polyols based on natural oils (soybean, castor and palm) and sugars (sorbitol and sucrose), there are now commercially available polyols made from the biobased diols 1,3-propanediol (PDO) and 1,4-butanediol (BDO) and diacids, including succinic acid and larger acids such as Elevance’s Inherent C18 octadecanedioic acid (ODDA), as well as those produced using carbon dioxide (CO2), including polypropylene, polyethylene, polyether polycarbonate, and polycyclohexene carbonate (PPC, PEC, PPP, and PCHC, respectively) polyols, says Doris de Guzman, senior consultant, bio-materials and intermediates for Tecnon OrbiChem.

Other approaches, notes Marcel Lubben, president of Reverdia, include the manufacture of polyols based on chemically recycled polymers like polyethylene terephthalate (PET) and optimisation of production to reduce energy consumption, material use, and emissions of conventional processes.

Because the properties of PUs are closely tied to the properties of the polyols from which they are produced, it is critical that biobased polyols offer the performance needed for a given PU application.

“Along with a measurable advantage in sustainability, to facilitate market acceptance green polyols must also offer equal or better performance with no, or minimal, changes in handling and processing,” says Peter Shepard, chief business officer with Novomer.

The production process must also have a similar or improved profile with respect to energy and water consumption and waste and emissions generation, and the product quality must be the same as or better than traditional polyols, says de Guzman. In addition, many green polyols customers now prefer renewable materials that do not use food as feedstock.