Citations Report - International Journal of Waste Resources

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Citations : 4450

International Journal of Waste Resources received 4450 citations as per Google Scholar report

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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 29, which means every article in International Journal of Waste Resources has got 29 average citations.

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

	2024	2023	2022	2021	2020	2019	2018	2017	2016	2015	2014	2013	2012	2011
Total published articles	37	60	60	57	23	10	42	60	69	22	46	14	10	4
Research, Review articles and Editorials	2	9	5	28	20	7	9	53	60	22	35	12	10	4
Research communications, Review communications, Editorial communications, Case reports and Commentary	20	51	55	29	3	3	1	7	9	0	11	2	0	0
Conference proceedings	0	44	0	0	0	0	62	54	89	0	0	0	45	0
Citations received as per Google Scholar, other indexing platforms and portals	486	620	719	709	534	419	314	206	143	115	44	15	0	0

Journal total citations count	4450
Journal impact factor	1.79
Journal 5 years impact factor	2.53
Journal cite score	13.83
Journal h-index	29

Important citations

Jadhav UU, Biswal BK, Chen Z, Yang EH, Hocheng H. Leaching of Metals from Incineration Bottom Ash Using Organic Acid. Journal of Sustainable Metallurgy. 2018;4(1):115-25.

Yahya AA, Ali N, Kamal NL, Shahidan S, Beddu S, Nuruddin MF, Shafiq N. Reducing Heavy Metal Element from Coal Bottom Ash by Using Citric Acid Leaching Treatment. InMATEC Web of Conferences 2017 (Vol. 103, p. 01004). EDP Sciences.

Ghosh PK, Jana NC. vorheriger Artikel Assessment of heavy metal contamination in wate... nächster Artikel Assessment of groundwater quality of Pratapgarh...

Modak S, Das D. INTERNATIONAL JOURNAL OF ENGINEERING SCIENCES & RESEARCH TECHNOLOGY GEO-HYDROLOGICAL CONDITION OF THE UPPER CATCHMENT AREA OF THE KUMARI RIVER BASIN USING GEO-SPATIAL TECHNIQUES.

Rusia DK, Swain KC, Singha C. Integrated Geospatial Technique for Potential Groundwater Zone (PGZ) Identification. Journal of Agroecology and Natural Resource Management. 2018;5(3):142-50.

Maity DK, Mandal S. Identification of groundwater potential zones of the Kumari river basin, India: an RS & GIS based semi-quantitative approach. Environment, Development and Sustainability. 2019;21(2):1013-34.

Ghosh PK, Jana NC. Groundwater potentiality of the Kumari River Basin in drought-prone Purulia upland, Eastern India: a combined approach using quantitative geomorphology and GIS. Sustainable Water Resources Management. 2018;4(3):583-99.

Arulbalaji P, Padmalal D, Sreelash K. GIS and AHP techniques based delineation of groundwater potential zones: a case study from southern Western Ghats, India. Scientific reports. 2019;9(1):2082.

Asriningrum S. Korelasi Antara Niat, Dukungan Sosial, Informasi Kesehatan, Otonomi Pribadi, Situasi Untuk Bertindak Dalam Merubah Perilaku Perawat Memilah Limbah Medis Di RS Al Islam Bandung. Jurnal Teras Kesehatan. 2019;1(2):99-113.

Ravensdale JT, Coorey R, Dykes GA. Integration of Emerging Biomedical Technologies in Meat Processing to Improve Meat Safety and Quality. Comprehensive Reviews in Food Science and Food Safety. 2018;17(3):615-32.

Iram S, Basri R, Ahmad KS, Jaffri SB. Mycological assisted phytoremediation enhancement of bioenergy crops Zea mays and‎ Helianthus annuus in heavy metal contaminated lithospheric zone. Soil and Sediment Contamination: An International Journal. 2019;28(4):411-30.

Hamid A, Asghar S. Determination of Present Household Solid Waste Generation Rate, Physical Composition and Existing SWM Practices in Selected Areas of Lahore. Nature Environment & Pollution Technology. 2018;17(1).

Ilyas H, Ilyas S, Ahmad SR, Nawaz MC. Waste generation rate and composition analysis of solid waste in Gujranwala City Pakistan. Int J Waste Resour. 2017;7(297):2.

Korai MS, Mahar RB, Uqaili MA. The feasibility of municipal solid waste for energy generation and its existing management practices in Pakistan. Renewable and Sustainable Energy Reviews. 2017;72:338-53.

van Dijk MP. Smart Eco-Cities Are Managing Information Flows in an Integrated Way: The Example of Water, Electricity and Solid Waste. InSmart Futures, Challenges of Urbanisation, and Social Sustainability 2018 (pp. 149-168). Springer, Cham.

AA K. An Assessment on the Level of Compliance in Handling and Disposal of Spent Oils from Retail Fuel Service Stations in Gwarinpa District of Abuja, Nigeria. Universal Journal of Environmental Research & Technology. 2016;1;6(4).

Gorbunov M, Kravchenko A, Gerlici J, Kravchenko K, Hauser V, Lack T. PROCESSING AND RECYCLING OF RUBBER AND OIL WASTES INTO HYDROCARBON FUEL BY METHOD OF PHYSICO-CHEMICAL ACTIVATION. InProceedings of the 18th International Scientific Conference" Engineering for Rural Development", Jelgava, Latvia, 22-24 May 2019 2019 (pp. 988-994). Latvia University of Life Sciences and Technologies.

Kulkarni SJ. Re-refining of used Oil-an Insight.

LM SP. Research and Reviews: Journal of Agriculture and Allied Sciences.

Shoba B, Jeyanthi J, Vairam S. Synthesis, characterization of cellulose acetate membrane and application for the treatment of oily wastewater. Environmental technology. 2018;10:1-6.

International Journal of Waste Resources

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