Kinetics of electric arc furnace slag leaching in alkaline solutions

[1]  O. Levenspiel Chemical Reaction Engineering , 1972 .

[2]  Patrick V. Brady,et al.  Kinetics of quartz dissolution at low temperatures , 1990 .

[3]  P. Dove Reply to Comment on “Kinetics of quartz dissolution in electrolyte solutions using a hydrothermal mixed flow reactor” , 1990 .

[4]  THERMODYNAMIC AND KINETIC ASPECTS OF THE DISSOLUTION OF QUARTZ-KAOLINITE MIXTURES BY ALKALIS , 1991 .

[5]  K. Scrivener,et al.  Hydration products of alkali activated slag cement , 1995 .

[6]  Patricia M. Dove,et al.  The influence of the alkaline earth cations, magnesium, calcium, and barium on the dissolution kinetics of quartz , 1997 .

[7]  Francisca Puertas,et al.  Alkali-activated slag cements: Kinetic studies , 1997 .

[8]  Ángel Palomo,et al.  Alkali-activated fly ashes: A cement for the future , 1999 .

[9]  E. Olanipekun A kinetic study of the leaching of a Nigerian ilmenite ore by hydrochloric acid , 1999 .

[10]  Ahmad Monshi,et al.  Producing Portland cement from iron and steel slags and limestone , 1999 .

[11]  Hamlin M. Jennings,et al.  Pore solution chemistry of alkali-activated ground granulated blast-furnace slag , 1999 .

[12]  C. Shi,et al.  Early strength development and hydration of alkali-activated blast furnace slag/fly ash blends , 1999 .

[13]  P. Dove The dissolution kinetics of quartz in aqueous mixed cation solutions , 1999 .

[14]  C. Jia,et al.  Behaviour of Co and Ni during aqueous sulphur dioxide leaching of nickel smelter slag , 2000 .

[15]  H Motz,et al.  Products of steel slags an opportunity to save natural resources. , 2001, Waste management.

[16]  L. Ćurković,et al.  Batch Pb2+ and Cu2+ removal by electric furnace slag. , 2001, Water research.

[17]  Darko Krizan,et al.  Effects of dosage and modulus of water glass on early hydration of alkali–slag cements , 2002 .

[18]  A. Atkinson,et al.  Sodium silicate-based, alkali-activated slag mortars: Part I. Strength, hydration and microstructure , 2002 .

[19]  I. Altun,et al.  Study on steel furnace slags with high MgO as additive in Portland cement , 2002 .

[20]  Mohammed K. Ibrahim,et al.  Comparison of properties of steel slag and crushed limestone aggregate concretes , 2003 .

[21]  K. Scrivener,et al.  29Si and 27Al NMR study of alkali-activated slag , 2003 .

[22]  F. Puertas,et al.  Structure of Calcium Silicate Hydrates Formed in Alkaline-Activated Slag: Influence of the Type of Alkaline Activator , 2003 .

[23]  K. L. Nagy,et al.  The effect of Al(OH)4− on the dissolution rate of quartz , 2006 .

[24]  Y. Comeau,et al.  Phosphorus removal by electric arc furnace steel slag and serpentinite. , 2006, Water research.

[25]  K. Sagoe-Crentsil,et al.  Dissolution processes, hydrolysis and condensation reactions during geopolymer synthesis: Part I—Low Si/Al ratio systems , 2007 .

[26]  Glykeria Kakali,et al.  Dissolution of aluminosilicate minerals and by-products in alkaline media , 2007 .

[27]  Delong Xu,et al.  Structure characterization of hydration products generated by alkaline activation of granulated blast furnace slag , 2008, Journal of Materials Science.

[28]  John L. Provis,et al.  Effect of Calcium Silicate Sources on Geopolymerisation , 2008 .

[29]  Christopher J. Koroneos,et al.  Utilization of steel slag for Portland cement clinker production. , 2008, Journal of hazardous materials.

[30]  N. Mostoufi,et al.  A shrinking particle - shrinking core model for leaching of a zinc ore containing silica , 2009 .

[31]  Ibrahim M. Asi,et al.  Use of low CaO unprocessed steel slag in concrete as fine aggregate , 2009 .

[32]  Luckman Muhmood,et al.  Cementitious and pozzolanic behavior of electric arc furnace steel slags , 2009 .

[33]  Chandra Sekhar Gahan,et al.  Comparative study on different steel slags as neutralising agent in bioleaching , 2009 .

[34]  Ana Mladenovič,et al.  Characterization of the EAF Steel Slag as Aggregate for Use in Road Construction , 2010 .

[35]  Monica Prezzi,et al.  Chemical, Mineralogical, and Morphological Properties of Steel Slag , 2011 .

[36]  H. Manzano,et al.  A model for the C-A-S-H gel formed in alkali-activated slag cements , 2011 .

[37]  J. Rose,et al.  Kinetics of steel slag leaching: Batch tests and modeling. , 2011, Waste management.

[38]  Y. Pontikes,et al.  Valorisation of electric arc furnace steel slag as raw material for low energy belite cements. , 2011, Journal of hazardous materials.

[39]  C. Li,et al.  The Composition of Fly Ash Glass Phase and Its Dissolution Properties Applying to Geopolymeric Materials , 2011 .

[40]  V. Ducman,et al.  The potential use of steel slag in refractory concrete , 2011 .

[41]  Karen L. Scrivener,et al.  The influence of aluminium on the dissolution of amorphous silica and its relation to alkali silica reaction , 2012 .

[42]  A. S. El-Dieb,et al.  Performance of concrete mixtures made with electric arc furnace (EAF) steel slag aggregate produced in the Arabian Gulf region , 2012 .

[43]  N. Neithalath,et al.  Reaction kinetics in sodium silicate powder and liquid activated slag binders evaluated using isothermal calorimetry , 2012 .

[44]  A. Azadmehr,et al.  Leaching kinetics of nickel extraction from hazardous waste by sulphuric acid and optimization dissolution conditions , 2013 .

[45]  R. Snellings Solution-Controlled Dissolution of Supplementary Cementitious Material Glasses at pH 13: The Effect of Solution Composition on Glass Dissolution Rates , 2013 .

[46]  Stefania Manzi,et al.  Mix-design and characterization of alkali activated materials based on metakaolin and ladle slag , 2013 .

[47]  K. Scrivener,et al.  The Effect of Aluminum in Solution on the Dissolution of Amorphous Silica and its Relation to Cementitious Systems , 2013 .

[48]  Maria Chiara Bignozzi,et al.  High temperature behaviour of ambient cured alkali-activated materials based on ladle slag , 2013 .

[49]  Wang Xiaohui,et al.  An investigation on the kinetics of chromium dissolution from Philippine chromite ore at high oxygen pressure in KOH sub-molten salt solution , 2013 .

[50]  Å. Sandström,et al.  A study of the solubility of pure slag minerals , 2013 .

[51]  Laurent De Windt,et al.  Kinetics of lime/bentonite pozzolanic reactions at 20 and 50 °C: Batch tests and modeling , 2014 .

[52]  Y. Pontikes,et al.  Cementitious binders from activated stainless steel refining slag and the effect of alkali solutions. , 2015, Journal of hazardous materials.

[53]  G. Saoût,et al.  Incorporation of aluminium in calcium-silicate-hydrates , 2015 .

[54]  Frank Winnefeld,et al.  Influence of slag composition on the hydration of alkali-activated slags , 2015 .