Special Report                                                                   Special Report


 butadiene separation from C4 olefi ns   Experimental scale-up and   Covalent Organic Framework   process to make precipitated CaCO  with
                                                                                                     3
 was undertaken. High permeance of 693   technoeconomic assessment   (COF) membrane with   V crystal structure. A simple approach is
 GPU and high selectivity over n-butene,   of low-grade glycerol (G)   Angstrom discrimination   suggested where Ca  is extracted from
                                                                                          2+
 n-butane, isobutylene and isobutane is   purifi cation from waste-based   in pore size for highly   OFS using NH Cl and subsequently opti-
                                                                                      4
 reported at 9.72, 9.94, 10.31, and 11.24,   biorefi nery  permselective ionic liquid (IL)   mizing the aqueous carbonation process
 respectively. This opens a new method   [Biodiesel production gives 10% by wt  nanofi ltration (NF)  for making high purity V, which has
 of  recovering  butadiene.  (Angew.   G, which is crude.]                higher added value. Addition of ammo-
 Chem. Intl. Ed., 2024; DOI: 10.1002/    [ILs have found multifarious uses and   nia is discussed. The conversion of V to
 anie.202401118).                        when used in aqueous solutions its   calcite crystalline phase was prevented.
       T. Attarbachi et al have presented the  recovery is important.]    The solid residue was mainly silica gel
 Conceptual methods for   title process at 2000 gm scale to pro-  S. Gao et al have mentioned that poly  and inert reducible oxide which can be
       vide a consolidated proof of concept. A
 synthesis of Reactive   series of physiochemical steps have been   amide NF membranes offer less attractive   a potential supplementary cementitious
 Distillation (RD) processes  implemented to get higher purity G and   separation performance. These authors   material. (ACS Sustainable Chem.
 [This column has covered several papers   recovery. Initial purity was 38-57% (by   have come out, for the fi rst time, with a   Eng. 2024; DOI: 10.1021/acssuschem.
 on RD, which saves capital and energy   wt) and ash up to 16 wt%. 85% pure G   series of COF membranes, which have   eng.3C07375).
 non-aqueous, to reduce energy consump-  out that NF, which is an energy effi cient  costs.]  been designed with angstrom-level pore
 tion in the desorber. The regeneration  process, has not yet been fully explored   size discrimination and highly tuneable  Integrated fi ltration
 effi ciency is high. (Reaction Chem. Eng.  for in situ product recovery from fer-  A.A. Kiss et al (Prof. Kiss has made   charge distribution on the membrane  and washing modelling:
 2024; DOI: 10.1039/D3RE00506B).  mentation solutions. These authors have  many valuable contributions in this   surface for removing ILs at a conc. of  optimisation of impurity
 used a commercially available cellulose  area) have critically discussed recent   0.05 moles per litre. More than 90% re-  rejection for fi ltration and
 Cost-effective preparation   acetate NF membrane to separate diffe-  developments in this area and consi-  jection is reported along with outstanding   washing of APIs
 of carbonic anhydrase (CA)   rent carboxylic acids from glucose in an  dered the range of available approaches   cycling stability. (ACS Sustainable Chem.
 with superior performance   aqueous solution. High stability and good  for assessing the technical feasibility,   Eng., 2024; DOI: 10.1021/acssuschem.  B.A. Mehta  et al have discussed
 for assisting amino acid liquid   separation performance is reported at low  controllability, economic viability, and   eng.3C04167).  this subject and to reduce impurities
 blends in CO  absorption and   pH. There is a previous report of an inno-  sustainability of RD units. Complex   Metal-Organic Cages (MOCs)   in the isolated cake, a mechanistic
                                                                          model-based workflow  was used to
 desorption  2  vative “reverse-fl ow diafi ltration” (RFD)  configurations are considered, along   with 71% recovery is reported. Aspen   for gas adsorption and   optimise. Two APIs – mefenamic acid
 for a continuous fermentation with in situ  with process modelling and simulation.
 [As mentioned earlier there is revival   removal of itaconic acid (IA), which is a  (J. Chem. Technol. Biotechnol., 2023;   software was used to design a plant with   separation  (MA) and paracetamol – were consid-
 of interest is using CA with improved   monomer for biopolymers. IA is usually  DOI: 10.1002/jctb.7633).  a capacity of 1630 kg per hr. 82 wt% fi nal   ered. A model validation approach was
 stability.]  purity with a maximum recovery of 77%   O-W. Zeng et al have referred to the   used. Thus, the optimal isolation con-
 recovered via crystallisation. Dead-end   unique high surface area and tuneable
 NF set up was used and naturally occur-  Enviro-economic investigation   is reported. Further, 315 kg per hour of   ditions were realised. (Org. Proc. Res.
 L. Mao  et al have employed ferri-  ring carboxylic acids – maleic acid, malic  of novel heat-integrated   saleable byproduct salts suitable as fer-  cavity size which endow MOCs with   Dev., 2024; DOI: 10.1021/acs.oprd.
 tin-tagged CA variant and the purifi ca-  acid and tartaric acid, citric acids – have  confi gurations for pressure   tiliser is reported. (Ind. Eng. Chem. Res.,   superior performance and broad appli-  3C00480).
 tion was achieved by low-speed centri-  been considered besides succinic acid and  swing distillation (PSD)  2024; DOI: 10.1021/acs.iecr.3C03868).   cation in gas adsorption and separa-
 fugation, yielding 92% activity recovery   IA. At pH 2 IA is separated from glucose   tion. Aspects of ligand design, metal   Separation of glufosinate
 and 95% purity. 50% MDEA solution   with an alpha of 22. IA separation from   A. Gholani et al have presented novel   Highly effi cient capture of CO    node regulation, active metal site con-  ammonium (GLA) and NaCl
 was used at 50°C with the above CA.   a fermentation broth is discussed and   configuration for PSD with conside-  through new amines  2  struction, cavity size adjustment and
 Absorption time was reduced from 70 to   glucose retention was in excess of 99%.   ration for heat integration. 18 distinct   [The absorption of CO  in amines/  function-oriented ligand modifi cation   During the production of GLA the
                           2
 50 min at 40°C and desorption from 40   Pure IA was obtained with the separation   heat integration scenarios have been   alkanolamines  continues  to  attract   are covered. Challenging and future   problem of separation of NaCl is en-
 to 25 min at 96% in 25% of DAA + 1%   factor of 60. This is very promising. (Che-  systematically evaluated through a   attention with respect to higher rates of   directions are outlined. Highly selec-  countered. A. Li et al have reported
 [N1111][Gly]. This proves effi ciency of   mie. Ing. Technik, 2024; DOI: 10.1002/  process simulation software in order   absorption/desorption and this column   tive adsorption is referred. (Chem.   solid-liquid equilibrium of GLA-NaCl
 CA-assisted MDEA. (ACS Sustainable   cite.202300194).  to come up with minimizing the Total   has covered many papers.]  Commun., 2024; DOI: 10.1039/D3C-  system, which allows the separation.
 Chem. Eng., 2024; DOI: 10.1021/acs-  Annual Cost. The most economically   C05935A).  GLA-NaCl-H O system at 25°C,
                                                                                       2
 soschemeng.3C07246).  Effective C4 separation   and environmentally friendly solution is   S. Jia et al have modifi ed the secondary   Synthesis of high-purity   24°C and 60°C and S-L equilibrium
                                                                                        2
                                                                                               3
 Separation of biobased   by zeolite MOF composite   the Internal Heat Integration Distillation   amino group in piperazine (PZ) with   and stable Vaterite (V) via   of GLA-NaCl-H O / CH OH at 60°C
                                                                          are reported. A fractional crystallisa-
       aminoethyl and hydroxyalkyl moieties.
 Column with Divided Wall Columns,
 membranes
 carboxylic acids by aqueous   involving vapour recompression column   The intramolecular amines allow low   leaching-carbonation of basic   tion technology coupling evaporation
 phase nanofi ltration (NF)  D. Ao et al have used MOF glass as  systems in both columns. Thus 66.5%   regeneration energy consumption of 2.56   oxygen furnace slag (OFS)  crystallisation and antisolvent crystalli-
 substrates to engineer the interface with  cost savings is reported. (Chem. Eng.   GJ/tonne CO . DFT calculations were   sation is reported. (Ind. Eng. Chem.
                 2
 L. Rubenach et al have discussed this  inorganic zeolites leading to monolithic  Res. Des., 2024, 204, April, 97-111;   done. (AIChE Jl, 2024; DOI: 10.1002/  There is a need to valorize OFS and Q.  Res., 2024; DOI: 10.1021/acs.iecr.
 separation in a detailed way and pointed  structures. A challenging problem of  DOI: 10.1016/j.cherd.2024. 02.033).  aic.18439).  Song et al have come out with the title  3C04169).
 172  Chemical Weekly  October 22, 2024  Chemical Weekly  October 22, 2024                             173

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