Capci Database for sustainable chemistry

Knowledge Base: Climate protection in the production and use of chemicals

Best Practice: Waste Biomass as Chemical Feedstock

Waste Biomass as Chemical Feedstock

Biomass waste includes those generated by agricultural products, for example, cane bagasse, corn stover, wheat straw, rice husk, food waste, and water treatment sludge, among other organic waste by-products from agriculture. According to NovoMOF, a company providing production processes for metal-organic frameworks (MOFs), the more abundant feedstocks of such wastes are cellulose, hemicellulose, and lignin. The hydrolysis of cellulose is the first step in obtaining chemicals and materials. In this process, the complex components are broken down into their simpler form. The resulting molecules are carbohydrates with one to six carbon structures. Among these compounds we find the so-called platform chemicals such as 5-hydroxymethylfurfural (5-HMF), levulinic acid and lactic acid.

Stage of Life Cycle
Inputs

GHG Reduction Potential

Using bio-ethanol as a case scenario for GHG reduction potential and comparing well-to-wheel fossil energy use in the case of maximum feedstock use, waste-based ethanol allows potential GHG emission savings 5 of 75.5 Mt CO2-eq when compared with wheat-based ethanol, and 110 Mt CO2 eq when compared with gasoline; this is equal to circa 6.4 or 9.3% respectively of all GHG emissions from transport in the EU.

Solution Maturity Status

Well Established:

This technology has been operating for a number of years and is well-known/ successful in its industry or market.

Identification Keys / Drivers & Barriers

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