Process design and economic studies of two-step fermentation for production of ascorbic acid

Lim, Suan Tee; Lau, Michelle Siao Li; Tiong, Edward Ing Jiun; Goon, Mun Min; Lau, Roger Jhee Cheng; Yeo, Wan Sieng; Lau, Sie Yon; Mubarak, Nabisab Mujawar

doi:10.1007/s42452-020-2604-8

Cited by 12 publications

(12 citation statements)

References 15 publications

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“…As other benchmark, three drugs were taken: two painkillers (paracetamol and ibuprofen) and an antibiotic (amoxicillin); they are also consumed globally on a large scale as the considered vitamins. For VD3, the photo-high-p,T process described by Escribà-Gelonch et al − was considered; for vitamin C, the two-step fermentation described by Lim et al; and for choline, the US3373201 patent . For paracetamol, the process starting from hydroquinone by Joncour et al was used, and for ibuprofen, the process according to US4981995; and the green route for amoxicillin production with a recycling integration described by Pereira et al The selection criterion of methodologies was to consider the current most circular and greenest process described, so the most advantageous process in terms of sustainability, which can give longer-term impact to this study, since industries need to move toward circularity.…”

Section: Resultsmentioning

confidence: 99%

Circular Economy Metrics for the Photo-High-p,T Continuous Multistep Synthesis of Vitamin D₃

Escribà‐Gelonch

Bricout

Hessel

2021

ACS Sustainable Chem. Eng.

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The vitamin D 3 flow-chemical process is a good route for exercising circularity in chemistry; as the complex chemistry of this reaction limits the highest yield to only 25%, a recycling operation becomes mandatory. In this context, this research applies, for the first time, a circular economy assessment to a flow chemistry process, including reaction and separation. This is undertaken on the example of the photo-flow-chemical synthesis of vitamin D 3 , previously developed by our group. In the research reported here, we develop a separation process to recycle the unreacted starting material 7-dehydrocholesterol after the photo-flow irradiation. We use acetonitrile for separation, instead of methanol, in the industrial process. In just one run, 90% of vitamin is extracted using dry acetonitrile as a separation solvent at 30 °C. A cumulative extraction efficiency of >99% is achieved after a second extraction step. The acetonitrile separation process connects directly to the subsequent vitamin crystallization using the same solvent. This eliminates the need to evaporate methanol in the industrial process; rather, the product is obtained just by cooling down. The Material Circular Indicator has been used as a central metric, and we needed to redefine this circularity metrics proposed by the Ellen MacArthur Foundation's CE100 program to the world of flow chemistry. Rather than being able to take the parameter of lifetime and utility used in the original C100 definition, the frequency and dose of usage of medicinal products are taken here, both of which are connected to chemical productivity and waste generation. To explore the application of this adapted methodology to other pharmaceutical production processes, the results for the proposed vitamin D 3 flow-chemical process are compared with five processes for producing vitamins, painkillers, and an antibiotic. It is shown that the vitamin D 3 flow chemistry process with the new separation achieves a Material Circular Indicator of 0.94, a recycled fraction mass above 0.95, and an energy demand reduction by a factor of 2.

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Section: Resultsmentioning

confidence: 99%

Circular Economy Metrics for the Photo-High-p,T Continuous Multistep Synthesis of Vitamin D₃

Escribà‐Gelonch

Bricout

Hessel

2021

ACS Sustainable Chem. Eng.

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“…As a platform chemical, sorbitol can be used to produce vitamin C or ascorbic acid (ASC) by fermentation 18 or isosorbide (ISB) by dehydration. 19 Sorbitol can be further hydrolyzed to low carbon number alcohols such as glycerol (GLY), propylene glycol (PG) and ethylene glycol (EG) 20,21 for replacing petroleum industry products, and can be converted into cyclic hydrocarbons for aerospace fuels by continuous isomerization aromatization.…”

Section: Richard L Smith Jrmentioning

confidence: 99%

Chemocatalytic production of sorbitol from cellulose via sustainable chemistry – a tutorial review

Zhou,

Smith,

2024

Green Chem.

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“…Finally, 2‐ketogluconic acid is rearranged in an acid medium to become ascorbic acid (Elste et al, 2020). Recently, other processes have been developed and reviewed (Pappenberger & Hohmann, 2014), allowing profitable production of ascorbic acid, if Vitamin C or other value‐added specialty chemicals are synthesized (Lim et al, 2020; Reshmy et al, 2022).…”

Section: Building Blocks and Chemicals Derived From Carbohydratesmentioning

confidence: 99%

“…Recently, other processes have been developed and reviewed (Pappenberger & Hohmann, 2014), allowing profitable production of ascorbic acid, if Vitamin C or other value-added specialty chemicals are synthesized (Lim et al, 2020;Reshmy et al, 2022). Ascorbic acid presents antioxidant properties, and therefore, it is used to prevent oil oxidation and in cosmetics formulation; however, its use for this purpose is limited due to its low solubility in hydrophobic substances.…”

Section: Ascorbic Acidmentioning

confidence: 99%

Surfactants produced from carbohydrate derivatives: A review of the biobased building blocks used in their synthesis

Ortiz

Alvarado

Zambrano³

et al. 2022

J Surfact & Detergents

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This work reviews the use of carbohydrates and their derivatives as renewable raw materials in the production of surfactants. Methods to attain state‐of‐the‐art carbohydrate‐derived surfactants are described. This includes surfactants widely used nowadays and others that have not yet transcended beyond the academic field. Given the abundance of hydroxyl groups in carbohydrates and the considerable quantity of different surfactant structures that can be generated during their synthesis, selectively obtaining a target product represents a challenge. Therefore, this work focuses on the platform chemicals available to synthesize biobased surfactants. The first part of the review comprises a brief introduction of simple and complex carbohydrates to better understand their chemistry. Then, a description of the processes to obtain biobased building blocks derived from carbohydrates according to the National Renewable Energy Laboratory (NREL, USA), and their usefulness in synthesizing surfactants is presented. This provides an organized inventory of the knowledge around the synthesis–production of surfactants from carbohydrate derivatives, emphasizing raw materials that could be inserted into the circular bioeconomy concept. Finally, the current industry trends and the potential role of biobased surfactants around new dioxane regulations are discussed.

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Process design and economic studies of two-step fermentation for production of ascorbic acid

Cited by 12 publications

References 15 publications

Circular Economy Metrics for the Photo-High-p,T Continuous Multistep Synthesis of Vitamin D₃

Circular Economy Metrics for the Photo-High-p,T Continuous Multistep Synthesis of Vitamin D₃

Chemocatalytic production of sorbitol from cellulose via sustainable chemistry – a tutorial review

Surfactants produced from carbohydrate derivatives: A review of the biobased building blocks used in their synthesis

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Process design and economic studies of two-step fermentation for production of ascorbic acid

Cited by 12 publications

References 15 publications

Circular Economy Metrics for the Photo-High-p,T Continuous Multistep Synthesis of Vitamin D3

Circular Economy Metrics for the Photo-High-p,T Continuous Multistep Synthesis of Vitamin D3

Chemocatalytic production of sorbitol from cellulose via sustainable chemistry – a tutorial review

Surfactants produced from carbohydrate derivatives: A review of the biobased building blocks used in their synthesis

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Product

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Circular Economy Metrics for the Photo-High-p,T Continuous Multistep Synthesis of Vitamin D₃

Circular Economy Metrics for the Photo-High-p,T Continuous Multistep Synthesis of Vitamin D₃