FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2943909877> ?p ?o ?g. }

• W2943909877 endingPage "75" @default.
• W2943909877 startingPage "68" @default.
• W2943909877 abstract "Water scarcity will be a key issue for the sustainable development of a country in future. Now India is facing a water crisis and coming years it is estimated that India's population will be suffered from severe water scarcity. In this paper, we study, review and compare the characteristics of various types of agricultural wastes as natural adsorbents. A vast assortment of ease regular adsorbents have been examined for their capacity to expel different sorts of toxins from water and wastewater. On the off chance that these agricultural wastes could be utilized as best adsorbents, it will give favorable position to ecological contamination. There have been attempts by scientists to investigate the adsorption capability of non-conventional, naturally-occurring agricultural wastes in treatment of different effluents. In India alone in excess of 400 million tons of agricultural wastes is produced every year, which incorporates bagasse, stalk, coir substance, rice husk etc. Investigating use of the agricultural wastes for use as adsorbents can give reasonable options in contrast to the treatment of domestic and industrial effluents.Keywords: Natural adsorbents; waste water treatment; eco-friendly; agricultural wastesReferences:Abdel-Ghani, N. E. D. T., & El-Chaghaby, G. A. (2008). The use of low cost and environment friendly materials for the removal of heavy metals from aqueous solutions. Current World Environment, 3(1), 31-38.Ali, I., Asim, M., & Khan, T. A. (2012). Low cost adsorbents for the removal of organic pollutants from wastewater. Journal of environmental management, 113, 170-183.Aziz, B. K., & Shareef, F. H. (2013). Using Natural Clays and Spent Bleaching Clay as Cheap Adsorbent for the Removal of Phenol in Aqueous Media.Bhatnagar, A., & Sillanpaa, M. (2010). Utilization of agro-industrial and municipal waste materials as potential adsorbents for water treatment-a review. Chemical engineering journal, 157(2-3), 277-296.Bhatnagar, A., Sillanpaa, M., & Witek-Krowiak, A. (2015). Agricultural waste peels as versatile biomass for water purification–A review. Chemical Engineering Journal, 270, 244-271.De Gisi, S., Lofrano, G., Grassi, M., & Notarnicola, M. (2016). Characteristics and adsorption capacities of low-cost sorbents for wastewater treatment: a review. Sustainable Materials and Technologies, 9, 10-40.Dubey, A. K., & Sahu, O. (2014). Review On Natural Methods For Waste Water Treatment. Journal of Urban and Environmental Engineering, 8(1), 89-97. ISSN 1982-3932, doi: 10.4090/juee.2014.v8n1.089097.Emmanuel E. E. (2013). Treatment of Saloon Waste Water Using Activated Carbon. Chemical and Process Engineering Research, 17. ISSN 2224-7467,  ISSN 2225-0913, www.iiste.org.Enas M. A. et al. (2014), Treatment of Yarn Dyeing Wastewater Using Different Coagulants Followed by Activated Carbon Adsorption. International Journal of Sciences: Basic and Applied Research (IJSBAR), 18(2), 327-339.Gautam, R. K., & Singh, A. (2016) Decentralized Low Cost Wastewater Treatment Plant Based on Phytoremediation and Bagasse Fly Ash as Natural Filtering Media. doi:10.21275/v5i2.12021601.Gautam, R. K., Mudhoo, A., Lofrano, G., & Chattopadhyaya, M. C. (2014). Biomass-derived biosorbents for metal ions sequestration: Adsorbent modification and activation methods and adsorbent regeneration. Journal of environmental chemical engineering, 2(1), 239-259.Gupta, V. K. (2009). Application of low-cost adsorbents for dye removal–a review. Journal of environmental management, 90(8), 2313-2342.Hosseinnia, A., Hashtroudi, M. S., Pazouki, M., & Banifatemi, M. (2006). Removal of surfactants from wastewater by rice husk. Iranian Journal of Chemical Engineering, 3(3), 44-50.Islamuddin G. (2016), Domestic Wastewater Treatment by Low-Cost Natural Adsorbents., International Journal for Scientific Research & Development, 4(3).Ismail, Z. Z. (2005). Removal of Oil From Wastewater UsingWalnut-Shell. Al-Khwarizmi engineering journal, 1(1), 117-124.Kulkarni, S. J. (2015). A Review on Packed Bed Removal of Organic Matter from Wastewater. Int. Journal on Scientific Research in Science, Engineering and Technology, 1(2), 27-30.Kumar, R., Singh, D., Gupta, R., & Tiwari, A. (2013). Egg shell and spent tea: An eco-friendly cost effective adsorbent. International Journal of Biological & Pharmaceutical Research, 4(12), 896-901.  Kyzas, G. Z., & Deliyanni, E. A. (2015). Modified activated carbons from potato peels as green environmental-friendly adsorbents for the treatment of pharmaceutical effluents. Chemical Engineering Research and Design, 97, 135-144.Lim, A. P., & Aris, A. Z. (2014). A review on economically adsorbents on heavy metals removal in water and wastewater. Reviews in Environmental Science and BioTechnology, 13(2), 163-181. DOI 10.1007/s11157-013-9330-2, https://www.researchgate.net/publication/262414861.Mahvi, A. H., Naghipour, D., Vaezi, F., & Nazmara, S. (2005). Teawaste as an adsorbent for heavy metal removal from industrial wastewaters. American Journal of Applied Science, 2(1): 372-375.Mirjalili, M., Tabatabai, M. B., & Karimi, L. (2011). Novel herbal adsorbent based on wheat husk for reactive dye removal from aqueous solutions. African Journal of Biotechnology, 10(65), 14478-14484.Rangabhashiyam, S., Anu, N., & Selvaraju, N. (2013). Sequestration of dye from textile industry wastewater using agricultural waste products as adsorbents. Journal of Environmental Chemical Engineering, 1(4), 629-641.Surchi, K. M. S. (2011). Agricultural wastes as low cost adsorbents for Pb removal: kinetics, equilibrium and thermodynamics. International journal of chemistry, 3(3), 103.Syafalni, S., Abustan, I., Dahlan, I., Wah, C. K., & Umar, G. (2012). Treatment of dye wastewater using granular activated carbon and zeolite filter. Modern Applied Science, 6(2), 37.Taha, G. M. (2006). Utilization of Low�?�Cost Waste Material Bagasse Fly Ash in Removing of Cu2+, Ni2+, Zn2+, and Cr3+ from Industrial Waste Water. Groundwater Monitoring & Remediation, 26(4), 137-141.Tejal P. (2012). A Review of Package Treatment Options for Domestic Wastewater, Proceeding of International Conference SWRDM.Upadhye, G. C., & Yamgar, R. S. (2016). Analytical study of agricultural waste as non-conventional low cost adsorbent removal of dyes from aqueous solutions. International Journal of Chemical Studies, 4(1), 128-133.Visekruna, A., Strkalj, A., & Marini�? Pajc, L. (2011). The use of low cost adsorbents for purification wastewater. The holistic approach to environment, 1(1), 29-37.Yagub, M. T., Sen, T. K., Afroze, S., & Ang, H. M. (2014). Dye and its removal from aqueous solution by adsorption: a review. Advances in colloid and interface science, 209, 172-184.Zulfikar, M. A., & Setiyanto, H. (2013). Adsorption of congo red from aqueous solution using powdered eggshell. International Journal of ChemTech Research, 5(4), 1532-1540." @default.
• W2943909877 created "2019-05-16" @default.
• W2943909877 creator A5002267789 @default.
• W2943909877 creator A5007215316 @default.
• W2943909877 creator A5033558531 @default.
• W2943909877 date "2019-01-01" @default.
• W2943909877 modified "2023-09-23" @default.
• W2943909877 title "Study of eco-friendly agricultural wastes as non-conventional low cost adsorbents: A review" @default.
• W2943909877 hasPublicationYear "2019" @default.
• W2943909877 type Work @default.
• W2943909877 sameAs 2943909877 @default.
• W2943909877 citedByCount "0" @default.
• W2943909877 crossrefType "journal-article" @default.
• W2943909877 hasAuthorship W2943909877A5002267789 @default.
• W2943909877 hasAuthorship W2943909877A5007215316 @default.
• W2943909877 hasAuthorship W2943909877A5033558531 @default.
• W2943909877 hasConcept C118518473 @default.
• W2943909877 hasConcept C127413603 @default.
• W2943909877 hasConcept C144024400 @default.
• W2943909877 hasConcept C144133560 @default.
• W2943909877 hasConcept C147455438 @default.
• W2943909877 hasConcept C149923435 @default.
• W2943909877 hasConcept C150394285 @default.
• W2943909877 hasConcept C171534860 @default.
• W2943909877 hasConcept C178790620 @default.
• W2943909877 hasConcept C185592680 @default.
• W2943909877 hasConcept C18903297 @default.
• W2943909877 hasConcept C2779584405 @default.
• W2943909877 hasConcept C2908647359 @default.
• W2943909877 hasConcept C2993426478 @default.
• W2943909877 hasConcept C39432304 @default.
• W2943909877 hasConcept C51193700 @default.
• W2943909877 hasConcept C528095902 @default.
• W2943909877 hasConcept C548081761 @default.
• W2943909877 hasConcept C57442070 @default.
• W2943909877 hasConcept C59822182 @default.
• W2943909877 hasConcept C82685317 @default.
• W2943909877 hasConcept C86803240 @default.
• W2943909877 hasConcept C87717796 @default.
• W2943909877 hasConcept C94061648 @default.
• W2943909877 hasConceptScore W2943909877C118518473 @default.
• W2943909877 hasConceptScore W2943909877C127413603 @default.
• W2943909877 hasConceptScore W2943909877C144024400 @default.
• W2943909877 hasConceptScore W2943909877C144133560 @default.
• W2943909877 hasConceptScore W2943909877C147455438 @default.
• W2943909877 hasConceptScore W2943909877C149923435 @default.
• W2943909877 hasConceptScore W2943909877C150394285 @default.
• W2943909877 hasConceptScore W2943909877C171534860 @default.
• W2943909877 hasConceptScore W2943909877C178790620 @default.
• W2943909877 hasConceptScore W2943909877C185592680 @default.
• W2943909877 hasConceptScore W2943909877C18903297 @default.
• W2943909877 hasConceptScore W2943909877C2779584405 @default.
• W2943909877 hasConceptScore W2943909877C2908647359 @default.
• W2943909877 hasConceptScore W2943909877C2993426478 @default.
• W2943909877 hasConceptScore W2943909877C39432304 @default.
• W2943909877 hasConceptScore W2943909877C51193700 @default.
• W2943909877 hasConceptScore W2943909877C528095902 @default.
• W2943909877 hasConceptScore W2943909877C548081761 @default.
• W2943909877 hasConceptScore W2943909877C57442070 @default.
• W2943909877 hasConceptScore W2943909877C59822182 @default.
• W2943909877 hasConceptScore W2943909877C82685317 @default.
• W2943909877 hasConceptScore W2943909877C86803240 @default.
• W2943909877 hasConceptScore W2943909877C87717796 @default.
• W2943909877 hasConceptScore W2943909877C94061648 @default.
• W2943909877 hasIssue "1" @default.
• W2943909877 hasLocation W29439098771 @default.
• W2943909877 hasOpenAccess W2943909877 @default.
• W2943909877 hasPrimaryLocation W29439098771 @default.
• W2943909877 hasRelatedWork W1527418449 @default.
• W2943909877 hasRelatedWork W1599356268 @default.
• W2943909877 hasRelatedWork W1982935034 @default.
• W2943909877 hasRelatedWork W1990758660 @default.
• W2943909877 hasRelatedWork W2014652787 @default.
• W2943909877 hasRelatedWork W2092899874 @default.
• W2943909877 hasRelatedWork W2139038010 @default.
• W2943909877 hasRelatedWork W2245843081 @default.
• W2943909877 hasRelatedWork W2318572115 @default.
• W2943909877 hasRelatedWork W2586862257 @default.
• W2943909877 hasRelatedWork W2737029506 @default.
• W2943909877 hasRelatedWork W2800240265 @default.
• W2943909877 hasRelatedWork W2890126830 @default.
• W2943909877 hasRelatedWork W2909341773 @default.
• W2943909877 hasRelatedWork W3033342893 @default.
• W2943909877 hasRelatedWork W3131773209 @default.
• W2943909877 hasRelatedWork W3155528788 @default.
• W2943909877 hasRelatedWork W3186995592 @default.
• W2943909877 hasRelatedWork W2435500060 @default.
• W2943909877 hasRelatedWork W2553827551 @default.
• W2943909877 hasVolume "9" @default.
• W2943909877 isParatext "false" @default.
• W2943909877 isRetracted "false" @default.
• W2943909877 magId "2943909877" @default.
• W2943909877 workType "article" @default.