Electrochemically Induced Crystallization as a Sustainable Method for Product Recovery of Building Block Chemicals: Techno-Economic Evaluation of Fumaric Acid Separation

Nasrollahnejad, T.; Urbanus, J.; Horst, Joop H. ter; Verdoes, D.; Roelands, C.P.M.

doi:10.1089/ind.2011.0012

Cited by 4 publications

(4 citation statements)

References 32 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Nasrollahnejad et al continued this work with at echnoeconomic evaluation of the proposed process for the production of fumaric acid. [58] They compared conventional fermentativep roduction, production and subsequent salt regeneration, and productiont hrough electrochemically induced crystallization. The conventional methodr equired af inal pH shift to induce the crystallization of fumarica cid in the bulk phase, whichp roduced about 1.3 tons of solid waste per ton of product.…”

Section: Crystallization Of Compound-forming Systemsmentioning

confidence: 99%

See 1 more Smart Citation

Application of In Situ Product Crystallization and Related Techniques in Biocatalytic Processes

Hülsewede

Meyer

Langermann

2019

Chemistry A European J

View full text Add to dashboard Cite

This Minireview highlights the application of crystallization as a very powerful in situ product removal (ISPR) technique in biocatalytic process design. Special emphasis is placed on its use for in situ product crystallization (ISPC) to overcome unfavorable thermodynamic reaction equilibria, inhibition, and undesired reactions. The combination of these unit operations requires an interdisciplinary perspective to find a holistic solution for the underlying bioprocess intensification approach. Representative examples of successful integrated process options are selected, presented, and assessed regarding their overall productivity and applicability. In addition, parallels to the use of adsorption as a very similar technique are drawn and similarities discussed.

show abstract

Section: Crystallization Of Compound-forming Systemsmentioning

confidence: 99%

“…Nasrollahnejad et al. continued this work with a technoeconomic evaluation of the proposed process for the production of fumaric acid . They compared conventional fermentative production, production and subsequent salt regeneration, and production through electrochemically induced crystallization.…”

Section: External Crystallizationmentioning

confidence: 99%

Application of In Situ Product Crystallization and Related Techniques in Biocatalytic Processes

Hülsewede

Meyer

Langermann

2019

Chemistry A European J

View full text Add to dashboard Cite

show abstract

“…Furthermore, several works illustrate the synergies between electrified downstream processes and pH-control of fermentation processes [ 8 , 9 , 10 , 11 ]. However, these processes usually can not compete with conventional processes due to high operation costs or low stability of the membranes due to scaling or fouling [ 5 , 18 ]. In previous work, we showed that crystallization on the membrane can be prevented and pure succinic acid can be produced via electrochemical pH-shift crystallization [ 19 , 20 , 21 ].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of a Prototype for Electrochemical pH-Shift Crystallization of Succinic Acid

Kocks

Wall²,

Jupke³

2022

Materials

View full text Add to dashboard Cite

Downstream processing of biotechnologically produced carboxylic acids, such as succinic acid, poses environmental and economic challenges. Conventional downstream processes cause large amounts of waste salts, which have to be purified or disposed of. Therefore, lean and waste-free downstream processes are necessary for the biotechnological production of succinic acid. Electrochemical downstream processes gain especially significant attention due to low chemical consumption and waste reduction. This work presents the pH-dependent solid-liquid equilibrium of succinic acid, a prototype for electrochemical pH-shift crystallization processes, and its characterization. Based on the supersaturation, energy consumption, and electrochemical protonation efficiency the proposed electrochemical pH-shift crystallization is evaluated. This evaluation highlights the potential of the proposed electrochemical crystallization processes as waste-free and economically attractive processes for bio-based succinic acid production.

show abstract

“…Several works illustrate the synergies between different electrochemical membrane processes and fermentations by producing base for the pH control of the fermentation, while simultaneously removing the product from the broth [13][14][15][16]. Techno-economical evaluations illustrate ecological advantages, but also conclude that membrane fouling and operating costs limit the economic feasibility of these approaches [3,5,7,16,17].…”

Section: Introductionmentioning

confidence: 99%

Electrochemical Crystallization Concept for Succinic Acid Reduces Waste Salt Production

Kocks

Görtz

Holtz

et al. 2019

Chemie Ingenieur Technik

View full text Add to dashboard Cite

Bio‐based carboxylic acids are promising platform chemicals. State‐of‐the‐art fermentations produce salts of carboxylic acids at neutral pH. Downstream processing of these fermentation broths traditionally involves a pH shift producing waste salts. These waste salts reduce the sustainability and economics of bio‐cased carboxylic acid production. Waste salt production can be avoided by inducing the pH shift electrochemically. Experimental feasibility studies of an electrochemical downstream process and investigations of electrochemically induced nucleation and crystal growth are given. The presented electrochemical downstream concept enables in situ production of succinic acid and simultaneous pH management of pH neutral fermentations without the side production of waste salts.

show abstract

Electrochemically Induced Crystallization as a Sustainable Method for Product Recovery of Building Block Chemicals: Techno-Economic Evaluation of Fumaric Acid Separation

Cited by 4 publications

References 32 publications

Application of In Situ Product Crystallization and Related Techniques in Biocatalytic Processes

Application of In Situ Product Crystallization and Related Techniques in Biocatalytic Processes

Evaluation of a Prototype for Electrochemical pH-Shift Crystallization of Succinic Acid

Electrochemical Crystallization Concept for Succinic Acid Reduces Waste Salt Production

Contact Info

Product

Resources

About