Sustainable production of 5-hydroxymethyl furfural from glucose for process integration with high fructose corn syrup infrastructure†

5-Hydroxymethyl furfural (HMF) is a platform chemical, which can be derived from lignocellulosic biomass, and used for production of liquid fuels and polymers. We demonstrate a process for production of HMF using sequential enzymatic and catalytic reactions of glucose to synthesize HMF, and simulated-moving-bed (SMB) separation to purify HMF. The adsorption thermodynamic parameters of glucose, fructose, and HMF on a commercial chromatography resin are experimentally determined for modeling the SMB-based HMF production process. The experimental data are used to develop a rigorous process model and then estimate the cost of production. Chromatographic separation of HMF has 16% lower operating costs compared to an extraction-based process and has a minimum selling price of approximately $1478 per ton. We demonstrate that the HMF process can be integrated with the high fructose corn syrup (HFCS) process, and we performed analyses considering two systems including construction of a new integrated facility and retrofitting an existing HFCS facility to produce HMF. Our analyses suggest that the latter approach is a promising short-term low-risk strategy to advance the HMF production technology to commercial scale.

Automated summary

The study demonstrates a method for producing HMF through enzymatic catalysis and chromatographic separation, with chromatographic separation having lower operating costs and minimum selling price compared to extraction. It also shows that the HMF process can be integrated with the HFCS process, and retrofitting existing HFCS facilities is a promising short-term low-risk strategy to advance HMF production technology.