References
- Hileman B. Pace of global change quickens: Un report projects rapidly accelerating, Potentially devastating warning C&EN. 2001;79(5):1–9. available at: Cent/topstory/7905/7905notw1.html.
- Olivier J GJ, Janssens-Maenhout G, Muntean M, et al. Trends in global CO2 emissions: 2015 Report, The Hague: PBL Netherlands Environmental Assessment Agency, Ispra: Europian Commission, Joint research center, PBL publication number: 1803 JRC Technical Note number: JRC98184 Trends in global CO2 emissions: 2015 Report, 2015, 1–77.
- Herzog H, Eliasson B, Kaarstad, Eliasson O, Capturing greenhouse gases. Sci Am. 2000;282(2):72–79.
- Qiao H, Chen M, Meng L et al. Study on carbon dioxide removal from flue gas by absorption of aqueous ammonia, Third Annual Conference on Carbon Capture & Sequestration, Alexandria, VA, USA. Available from:https://www.netl.doe.gov/publications/proceedings/04/carbon-seq/158.pdf. 2004.
- D'Alessandro DM, Smit B, Long. RJ. Carbon dioxide capture: prospects for new materials. Angew Chem Int Ed. 2010;49:6058–6082.
- Murshid G, Shariff AM, Keong LK, et al. Thermo physical analysis of 2-amino-2-methyl-1-propanol solvent for carbon dioxide removal. Chem Eng Trans. 2011;25:45–50. DOI:10.3303/CET1125008.
- Plaza MG, Pevida C, Arias B, et al. A comparison of two methods for producing CO2 capture adsorbents. Energy Procedia. 2009;1:1107–1113.
- Rashidi NA, Yusup S, Lam HL. Kinetic studies on carbon dioxide capture using activated carbon. Chem Eng Trans. 2013;35:361–366.
- Alhassan M, Auta M, Sabo JK, et al. CO2 capture using amine –impregnated activated carbon from Jatropha Curcas Shell. Brit J. Adv Sci Technol. 2016;4(4):1–11
- Ketcha JM, Dina DJD, Ngomo HM, et al. Preparation and characterization of activated carbons obtained from Maize Cobs by Zinc Chloride Activation. Am Chem Sci J. 2010;2(4):136–160. Available from:www.sciencedomain.org
- Tsai WT, Chang CY, Lee SL. A low cost adsorbent from agricultural waste corncob by Zinc chloride activation. Biores Technol. 1998;64:211–217.
- Tsai WT, Chang CY, Chang CF, et al. Cleaner production of carbon adsorbents by utilizing agricultural waste corn cob. Resour Conserv Recy. 2001;32:43–53.
- Chang CF, Chang CY, Tsai WT. Effects of burn-off and activation temperature on preparation of activated carbon from corn cob agrowaste by CO2 and steam. J. Colloid Interf Sci. 2000;232:45–49.
- Boudrahem F, Aissani-Benissad F, Ait-Amar H. Batch sorption dynamics and equilibrium for the removal of lead ions from aqueous phase using activated carbon developed from coffee residue activated with zinc chloride. J. Environ Manage. 2009;90:3031–3039.
- Bansal RC, Donnet JB, Stoeckli HF. Active carbons. New York: Mercel Dekker; 1988. p. 482.
- Nabaisa V, Laginhas C, Carrott R, et al. Surface and porous characterisation of activated carbons made from a novel biomass precursor, the esparto grass. Appl Surf Sci. 2013;265:919–924.
- Williams TP, Reed RA. High grade activated carbon matting derived from the chemical activation and pyrolysis of natural fibre textile waste. J Anal Appl Pyrol. 2004;71(2):971–986.
- Alhassan M, Andresen J. Effect of bone during fixed bed pyrolysis of pistachio nut shell. In J Al Sci Eng Invest. 2013;2(12):2251–8843.
- Pendyal B, Johns MM, Marshall WE, et al. The effect of binders and agricultural by-products on physical and chemical properties of granular activated carbons. Bioresource Technol. 1999;68:247–254.
- Al-Qodah Z, Shawabkah R. Production and characterization of granular activated carbon from activated sludge. Braz J Chem Eng. 2009;261:127–136.
- Alzaydian AS. Adsorption of methylene blue from aqueous solution onto a low – cost natural Jordanian Tripoli. Am J Appl Sci. 2009:6(6):1047–1058.
- Özcan A, Öncü EM, Özcan AS. Kinetics, isotherm and thermodynamic studies of adsorption of acid blue 193 from aqueous solutions onto natural sepiolite, colloids and surfaces. Physicochem Eng Aspect. 2006;277:90–97.
- Ho YS, Ng JC, McKay G. Kinetics of pollutant sorption by sorbents: Review, Separ Purif Rev. 2000;29:180–232.
- Sultana MS, Rahman MA. Characterization of calcined sugar cane bagasse ash and sugar cane waste ash for industrial use. International conference on Mechanical and Material Engineering (ICMIME2013); Nov 1–3; Bangladesh: RUET Rajashahi; 2013. p. 508–513.
- Takashi A, Takashi O, Kuniaki K, et al. Ammonia adsorption on bamboo charcoal with acid treatment. J Health Sci. 2006;52:585–589.
- Devnarain PB, Arnold DR, Davis SB. Production of activated carbon from South African sugar cane bagasse. Proc S Afr Sug Technol Ass. 2002;76:477–489.
- Smit B. EFRC-NETL research on carbon capture and ARPA-e, Us department of energy. Office of Basic Energy Sciences Energy Frontier Research Center 2015;1–5. available at: https://www.net.doe.gove/file%20library/events/2012/co2%capture%meeting/B-Smit-Berkley-Capture-Research.pdf.
- Yang T, Lua AC. Characteristics of activated carbons prepared from pistachio-nut shells by physical activation. J Coll Interf Sci. 2003;267:408–417.
- Rashidi NA, Yusup S, Borhan A. Development of novel low-cost activated carbon for carbon dioxide capture. Int J Chem Eng Appl. 2014;4(2):91.
- Qureshi K, Bhatti I, Kazi R, et al. Physical and chemical analysis of activated carbon prepared from sugarcane bagasse and use for sugar decolorization. Inte J Nat Sci Eng. 2008;1(3):145–149.
- Wu J. Modeling adsorption of organic compounds on activated carbon: a multivariate approach. Thesis, Umea, Sweden: Publised by Solfjadern offset AB. 2004. ISBN: 91-7305-697-9.
- Olu-Owolabi BI, Diagboya PN, Ebaddan WC. Mechanism of Pb2+ removal from aqueous solution using a non-living moss biomass. Chem Eng J. 2012;195-196:270–275.
- Khalil HPS, Jawaid M, Firoozian P, et al. Activated carbon from various agricultural wastes by chemical activation with KOH: preparation and characterization. J Biobase Mater Bioenerg. 2013;7:1–7.
- Coates J. Interpretation of infrared Spectra, a practical approach. In Meyers RA, editor. Encyclopedia of analytical chemistry. Chichester: John Wiley & Sons Ltd; 2000. p. 1–45.
- Govindarajan D, Jayalakshini G. XRD, FTIR and SEM studies on calcined sugarcane bagasse ash blended cement. Achieve Phys Res. 2011;2(4):38–44.