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International Journal of Waste Resources

International Journal of Waste Resources
Open Access

ISSN: 2252-5211

International Journal of Waste Resources : Citations & Metrics Report

Articles published in International Journal of Waste Resources have been cited by esteemed scholars and scientists all around the world. International Journal of Waste Resources has got h-index 17, which means every article in International Journal of Waste Resources has got 17 average citations.

Following are the list of articles that have cited the articles published in International Journal of Waste Resources.

  2020 2019 2018 2017 2016

Year wise published articles

23 10 42 60 69

Year wise citations received

460 358 263 172 113
Journal total citations count 1875
Journal impact factor 8.90
Journal 5 years impact factor 6.76
Journal cite score 9.38
Journal h-index 17
Journal h-index since 2016 17
Important citations

Kusworo TD, Aryanti N, Anggita RA, Setyorini TA, Utomo DP. Research Article Surface Modification and Performance Enhancement of Polyethersulfone (PES) Membrane Using Combination of Ultra Violet Irradiation and Thermal Annealing for Produced Water Treatment.

MOHAMED FB. FORMIC ACID CROSSLINKED CELLULOSE ACETATE DEFECT-FREE ASYMMETRIC MEMBRANE FOR GAS SEPARATION.

Hidayah M, Kusworo T. Modification of Polyethersulfone Membranes to Remove Produced Water Dirt into Clean Water. In1st International Conference on Science and Technology, ICOST 2019 2019. European Alliance for Innovation (EAI).

Shaari NZ, Sulaiman NA, Rahman NA. Thin film composite membranes: Preparation, characterization, and application towards copper ion removal. Journal of Environmental Chemical Engineering. 2019 Feb 1;7(1):102845.

Kusworo TD, Soetrisnanto D, Santoso C, Payanti TD, Utomo DP. Hydrophylicity Enhancement of Modified Cellulose Acetate Membrane to Improve the Membrane Performance in Produced Water Treatment. InMATEC Web of Conferences 2018 (Vol. 156, p. 08003). EDP Sciences.

Kamal M, Abdelrazek EM, Sellow NM, Abdelghany AM. Synthesis and optimization of Novel Chitosan/Cellulose Acetate Natural Polymer Membrane for water treatment.

Kusworo TD, Ikhsan D, Rokhati N, Prasetyaningrum A, Mutiara FR, Sofiana NR. Effect of combination dope composition and evaporation time on the separation performance of cellulose acetate membrane for demak brackish water treatment. InMATEC Web of Conferences 2017 (Vol. 101, p. 01004). EDP Sciences.

Etemadi H, Yegani R, Babaeipour V. Study on the reinforcing effect of nanodiamond particles on the mechanical, thermal and antibacterial properties of cellulose acetate membranes. Diamond and Related Materials. 2016;69:166-76.

Comba MB. Estudio sobre el empleo de fuentes alternativas de materia prima quiral.

Jain JR, John JT, Jyotirmoy G, Manohar SH. Standardization of medium composition and agricultural waste in the production of p-hydroxybenzoic acid by Paecilomyces variotii. 3 Biotech. 2015;5(5):647-51.

Ado BV, Onilude AA, Oluma HO, Mabitine DM. Production of Fungal Laccase under Solid State Bioprocessing of Agroindustrial Waste and Its Application in Decolourization of Synthetic Dyes. Journal of Advances in Biology & Biotechnology. 2019;1:1-7.

Taylor JR. The Fundamental Science and Engineering of Hydrothermal Carbonization and Analyzing Commercialization Potential through a Full Systems Analysis (Doctoral dissertation, Villanova University).

Afolabi OO, Sohail M. Microwaving human faecal sludge as a viable sanitation technology option for treatment and value recovery.

Zhang T, Wu X, Shaheen SM, Zhao Q, Liu X, Rinklebe J, Ren H. Ammonium nitrogen recovery from digestate by hydrothermal pretreatment followed by activated hydrochar sorption. Chemical Engineering Journal. 2020;379:122254.

Afolabi OO. An investigation into human biowaste management using microwave hydrothermal carbonization for sustainable sanitation (Doctoral dissertation, © Oluwasola Olakunle Daniel Afolabi).

Vikman M, Siipola V, Kanerva H, Slizyte R, Wikberg H. Poultry By-products as a potential source of nutrients. Advances in Recycling and Waste Management. 2017;2(3):1-5.

Ekpo UN. The potential for recovery of nutrients from biomass by hydrothermal processing (Doctoral dissertation, University of Leeds).

Ekpo UN. The potential for recovery of nutrients from biomass by hydrothermal processing (Doctoral dissertation, University of Leeds).

Wang L, Chang Y, Liu Q. Fate and distribution of nutrients and heavy metals during hydrothermal carbonization of sewage sludge with implication to land application. Journal of Cleaner Production. 2019;225:972-83.

Nge GB. Hydrothermal carbonization and investigation of biochar using IR spectroscopy.

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