Integrated Life Cycle and Techno-Economic Assessment of Micellar Solvent Systems in Bulk Fine Chemical Production

Wunderlich, Johannes; Buchner, Georg A.; Schwarze, Michael; Schomäcker, Reinhard

doi:10.1021/acs.iecr.3c03630

Cited by 1 publication

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“…In the larger context of circular economy, TEA and LCA have been combined to screen various technologies for urban mining of valuable metals from secondary sources (Agrawal et al, 2023), thus highlighting the need for reducing virgin metal consumption. The first integrated TEA and LCA of microemulsion systems applied in small-scale batch production of fine chemicals on the example of Boscalid reveals overall economic and environmental competitiveness (Wunderlich et al, 2024). A complementary study investigating the potential for continuous production of base chemicals at a large scale is missing.…”

Section: Introductionmentioning

confidence: 99%

Integrated techno-economic and life cycle assessment of hydroformylation in microemulsion systems

Wunderlich,

Kretzschmar,

Schomäcker

2024

Front. Sustain.

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This paper presents the first integrated techno-economic and life cycle assessment of microemulsion systems being applied for rhodium-catalyzed hydroformylation of long-chain alkenes at industrial scale. The case study describes a projected 150 kt/a production of tridecanal (US gulf coast, 2019). The industrial success of the hydroformylation of short-chain alkenes lies in the continuous recycling of the rhodium-containing water phase. Microemulsion systems can be applied to transfer this concept to long-chain alkenes by overcoming the miscibility gap between the aqueous catalyst phase and the unipolar alkene phase and, moreover, by generating a temperature-induced multi-phase system enabling the immobilization of the catalyst and its continuous recycling, as demonstrated in miniplant operations with dodecene and rhodium/SulfoXantPhos. Customizable simulation models have been developed for scale-up and assessment of the miniplant data. Surprisingly, a profitability-driven sensitivity study indicates a base case optimum at low residence time with low alkene conversion leading to large throughput streams and high raw material purge rates. The comparison to the industrial cobalt-based benchmark system shows an economic advantage regarding net present value (Rh: 68 M$; Co: 62 M$), while about half of the environmental indicators are in favor or equivalent. In a best-case scenario considering zero leaching of expensive rhodium the net present value increases by almost 40% accompanied by a shift to overall lower environmental impacts than the benchmark. In conclusion, the investigated miniplant data suggest microemulsion systems to be competitive when applied in continuous processes at a large scale.

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Section: Introductionmentioning

confidence: 99%