GET THE APP

Journal of Chemical Engineering & Process Technology

Journal of Chemical Engineering & Process Technology
Open Access

ISSN: 2157-7048

Journal of Chemical Engineering & Process Technology : Citations & Metrics Report

Articles published in Journal of Chemical Engineering & Process Technology have been cited by esteemed scholars and scientists all around the world. Journal of Chemical Engineering & Process Technology has got h-index 26, which means every article in Journal of Chemical Engineering & Process Technology has got 26 average citations.

Following are the list of articles that have cited the articles published in Journal of Chemical Engineering & Process Technology.

  2021 2020 2019 2018 2017

Year wise published articles

97 15 10 25 39

Year wise citations received

658 567 476 421 320
Journal total citations count 3288
Journal impact factor 11.51
Journal 5 years impact factor 10.10
Journal cite score 14.07
Journal h-index 26
Journal h-index since 2017 24
Important citations

yaneva zl, georgieva nv (2012) insights into congo red adsorption on agro-industrial materials- spectral, equilibrium, kinetic, thermodynamic, dynamic and desorption studies. a review. international review of chemical engineering 4: 127-146.

braga bm, gonçalves dv,  paiva mag, lucena smp (2016) molecular validated model for adsorption of protonated dye on ldh. brazilian journal of chemical engineering, 33: 235-241.

goyal p, basniwal rk (2017) environmental bioremediation: biodegradation of xenobiotic compounds. in xenobiotics in the soil environment (pp. 347-371). springer international publishing.

mathew b, singh h, biju vg, beeregowda kn.classification, source and effect of environmental pollutants and its biodegradation. journal of environmental pathology, toxicology and oncology.

busi s, rajkumari j (2017) biosurfactant: a promising approach toward the remediation of xenobiotics, a way to rejuvenate the marine ecosystem. in marine pollution and microbial remediation (pp. 87-104). springer singapore.

aguiar je, bezerra btc, braga bdm, lima pdds, nogueira refq, et al.  (2013) adsorption of anionic and cationic dyes from aqueous solution on non-calcined mg-al layered double hydroxide: experimental and theoretical study. separation science and technology 48: 2307-2316.

liu s, cai y, cai x, li h, zhang  f, mu q, wang y (2013) catalytic photodegradation of congo red in aqueous solution by ln (oh) 3 (ln= nd, sm, eu, gd, tb, and dy) nanorods. applied catalysis a: general 453: 45-53.

bhattacharya i (2015) inhibition de la croissance de candida krusei et évaluation du profil nutritionnel de la fermentation de saccharomyces unispora à partir du lactoserum (doctoral dissertation, université du québec, institut national de la recherche scientifique).

velu s, muruganandam l, arthanareeswaran g (2015) preparation and performance studies on polyethersulfone ultrafiltration membranes modified with gelatin for treatment of tannery and distillery wastewater. brazilian journal of chemical engineering 32: 179-189.

danish m, al mesfer mk, rashid mm  (2015) effect of operating conditions on cstr performance: an experimental study. int. j. engg. research and applications 5: 74-78.

waheed ma, samuel od, bolaji bo, dairo ou (2014) optimization of nigerian restaurant waste cooking biodiesel reaction parameters using response surface methodology.

goyal p, basniwal rk (2017)environmental bioremediation: biodegradation of xenobiotic compounds. in xenobiotics in the soil environment (pp. 347-371). springer international publishing.

ramuedzisi he (2016) challenges in recycling used cooking oil to produce biodiesel in polokwane (doctoral dissertation).

otamiri fo, ogugua v n, joshua pe, odiba as, ukegbu cy. physicochemical characterization of coconut copra (dry flesh) oil and production of biodiesel from coconut copra oil.

owolabi r u, adejumo al, aderibigbe af (2012) biodiesel: fuel for the future (a brief review). international journal of energy engineering 2: 223-231.

congreves ka, voroney rp, van eerd l l (2014) amending soil with used cooking oil to reduce nitrogen losses after cole crop harvest: a 15n study. nutrient cycling in agroecosystems, 100: 257-271.

goyal p, basniwal rk (2017) environmental bioremediation: biodegradation of xenobiotic compounds. in xenobiotics in the soil environment . springer international publishing  347-371

arora v, tiwari dp. adsorption of brilliant blue dye using activated walnut shell powder.

mathew b, singh h, biju vg, beeregowda kn. classification, source and effect of environmental pollutants and its biodegradation. journal of environmental pathology, toxicology and oncology.

busi s, rajkumari j (2017) biosurfactant: a promising approach toward the remediation of xenobiotics, a way to rejuvenate the marine ecosystem. in marine pollution and microbial remediation (pp. 87-104). springer singapore.

Relevant Topics