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Chemical Engineering and Processing - Process Intensification (CEP-PI)

Publisher :

Elsevier

Scopus Profile
Peer reviewed only
Scopus Profile
Open Access
  • Chemical
  • Chemical Engineering
  • innovative research

    • +3

e-ISSN :

1873-3204

Issue Frequency :

Monthly

Impact Factor :

4.3

p-ISSN :

0255-2701

Est. Year :

1984

Mobile :

31204853911

Country :

Netherlands The

Language :

English

APC :

YES

Email :

nlinfo@sciencedirect.com

Journal Descriptions

Chemical Engineering and Processing: Process Intensification is the premier publication for innovative research contributions on process intensification for chemical, biotechnological and functional materials manufacturing, energy, and environmental applications. The journal especially welcomes research contributions that aim for sustainable development. Articles should address progress on fundamentals, novel methodologies or practical chemical engineering applications, using, e.g., structured materials, miniaturized equipment, alternative energy sources for physicochemical activation (e.g., light, electricity, microwaves, plasma, and ultrasound), dynamics (e.g., periodic operation), external forcing (e.g., vibration, oscillatory flow), integrated separations and reactions, and other synergies between unit operations, as well as innovative process systems designs, digital manufacturing, and modularized production to achieve desirable targets, such as defossilization and higher resource efficiency, compactness, safety, and resilience.


Chemical Engineering and Processing - Process Intensification (CEP-PI) is :

International, Peer-Reviewed, Open Access, Refereed, Chemical, Chemical Engineering, innovative research, biotechnological, Process Chemistry, Technology , Online or Print, Monthly Journal

UGC Approved, ISSN Approved: P-ISSN - 0255-2701, E-ISSN - 1873-3204, Established in - 1984, Impact Factor - 4.3

Not Provide Crossref DOI

Indexed in Scopus

Not indexed in WoS, DOAJ, PubMed, UGC CARE

Indexing

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Scopus
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Elsevier
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Index Copernicus

+8 More

Publications of CEP-PI

Research Article
  • dott image R.P. Vijayakumar
  • dott image November, 2017

Processing of mixed-plastic waste to fuel oil, carbon nanotubes and hydrogen using multi–core reactor

Conversion of mixed–plastic waste into carbon nanotubes (CNTs) and hydrogen–rich hydrocarbon gases was carried out in a multi–core reactor using Ni/Mo/MgO catalyst. The mixed plastic w...

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