Adsorption of hydrogen sulfide in biogas using a novel iron-impregnated biochar scrubbing system

[1]  S. Lansing,et al.  Biochar addition with Fe impregnation to reduce H2S production from anaerobic digestion. , 2020, Bioresource technology.

[2]  G. Felton,et al.  Evaluation of Hydrogen Sulfide Scrubbing Systems for Anaerobic Digesters on Two U.S. Dairy Farms , 2019 .

[3]  Chu-Lin Cheng,et al.  Lead removal from aqueous solutions using biochars derived from corn stover, orange peel, and pistachio shell , 2019, International Journal of Environmental Science and Technology.

[4]  K. Ciahotný,et al.  Hydrogen Sulfide Removal from Biogas Using Carbon Impregnated with Oxidants , 2019, Energy & Fuels.

[5]  C. Frear,et al.  Production and characterization of H2S and PO43− carbonaceous adsorbents from anaerobic digested fibers , 2019, Biomass and Bioenergy.

[6]  Timothy J Shelford,et al.  Performance and Economic Results for Two Full-scale Biotrickling Filters to Remove H2S from Dairy Manure-derived Biogas , 2019, Applied Engineering in Agriculture.

[7]  Huan Xu,et al.  Effect of pyrolysis temperature on sulfur content, extractable fraction and release of sulfate in corn straw biochar , 2018, RSC advances.

[8]  P. Quicker,et al.  Properties of biochar , 2018 .

[9]  E. Fini,et al.  Efficient Air Desulfurization Catalysts Derived from Pig Manure Liquefaction Char , 2017 .

[10]  S. Khanal,et al.  Removal of hydrogen sulfide generated during anaerobic treatment of sulfate-laden wastewater using biochar: Evaluation of efficiency and mechanisms. , 2017, Bioresource technology.

[11]  T. Lee,et al.  Adsorption of Hydrogen Sulfide from Gas Streams Using the Amorphous Composite of α-FeOOH and Activated Carbon Powder , 2017 .

[12]  N. M. Nor,et al.  Biochars as Potential Adsorbers of CH4, CO2 and H2S , 2017 .

[13]  E. Moreno‐Jiménez,et al.  Sorption separation of Eu and As from single-component systems by Fe-modified biochar: kinetic and equilibrium study , 2017, Journal of the Iranian Chemical Society.

[14]  M. Balsamo,et al.  ZnO-CuO supported on activated carbon for H2S removal at room temperature , 2016 .

[15]  Kyle K. Shimabuku,et al.  Environmental Comparison of Biochar and Activated Carbon for Tertiary Wastewater Treatment. , 2016, Environmental science & technology.

[16]  John L. Zhou,et al.  Progress in the preparation and application of modified biochar for improved contaminant removal from water and wastewater. , 2016, Bioresource technology.

[17]  Xue Sun,et al.  Highly effective removal of Cu(II) by a novel 3-aminopropyltriethoxysilane functionalized polyethyleneimine/sodium alginate porous membrane adsorbent , 2016 .

[18]  Ping Chen,et al.  Adsorption of hydrogen sulfide by biochars derived from pyrolysis of different agricultural/forestry wastes , 2016, Journal of the Air & Waste Management Association.

[19]  Seth W. Snyder,et al.  Producing pipeline-quality biomethane via anaerobic digestion of sludge amended with corn stover biochar with in-situ CO2 removal , 2015 .

[20]  J. Lehmann,et al.  Adsorption and desorption of ammonium by maple wood biochar as a function of oxidation and pH. , 2015, Chemosphere.

[21]  T. Bandosz,et al.  Role of surface chemistry and morphology in the reactive adsorption of H₂S on iron (hydr)oxide/graphite oxide composites. , 2015, Langmuir : the ACS journal of surfaces and colloids.

[22]  J. Lehmann,et al.  Biochar for environmental management : science, technology and implementation , 2015 .

[23]  E. Diamadopoulos,et al.  Ca and Fe modified biochars as adsorbents of arsenic and chromium in aqueous solutions. , 2014, Journal of environmental management.

[24]  Ling Zhao,et al.  Comparison of sewage sludge- and pig manure-derived biochars for hydrogen sulfide removal. , 2014, Chemosphere.

[25]  S. Assabumrungrat,et al.  Effects of humidity, O2, and CO2 on H2S adsorption onto upgraded and KOH impregnated activated carbons , 2014 .

[26]  Qin Chen,et al.  Kinetics and mechanisms of hydrogen sulfide adsorption by biochars. , 2013, Bioresource technology.

[27]  A. Morán,et al.  Hydrogen production from food wastes and gas post-treatment by CO2 adsorption. , 2012, Waste management.

[28]  J. Lehmann,et al.  Corn growth and nitrogen nutrition after additions of biochars with varying properties to a temperate soil , 2012, Biology and Fertility of Soils.

[29]  J. Lehmann,et al.  Effects of chemical, biological, and physical aging as well as soil addition on the sorption of pyrene to activated carbon and biochar. , 2011, Environmental science & technology.

[30]  Anneli Petersson,et al.  Biogas upgrading technologies – developments and innovations , 2010 .

[31]  A. Dalai,et al.  Direct oxidation of hydrogen sulphide to sulphur using impregnated activated carbon catalysts , 2008 .

[32]  Chen‐Chia Huang,et al.  Effect of moisture on H(2)S adsorption by copper impregnated activated carbon. , 2006, Journal of hazardous materials.

[33]  I. Saito,et al.  Simultaneous removal of H2S and COS using activated carbons and their supported catalysts , 2005 .

[34]  T. Bandosz,et al.  Activated carbons with metal containing bentonite binders as adsorbents of hydrogen sulfide , 2005 .

[35]  T. Bandosz,et al.  Adsorption/Oxidation of Hydrogen Sulfide on Nitrogen-Containing Activated Carbons , 2000 .

[36]  Adib,et al.  Effect of pH and Surface Chemistry on the Mechanism of H(2)S Removal by Activated Carbons. , 1999, Journal of colloid and interface science.