SchoolofResourcesandEnvironmentalEngineeringWuhan UniversityofTechnologygeomicrobiologiaa-mostly,mineralsminingMinerals naturally in lithosphere: natural, chemical substance; generally inorganicsolid, crystalline, hard and chemically stableCu?FeSFigures:https://en.wikipedia.org/wikilandXieetal.(2016;https://doi.org/10.1002/aenm.201601299)
-mostly, minerals mining Minerals naturally in lithosphere: natural, chemical substance; generally inorganic, solid, crystalline, hard and chemically stable Figures: https://en.wikipedia.org/wiki/ and Xie et al. (2016; https://doi.org/10.1002/aenm.201601299) 2. Research of environmental ecology, e.g. mine environment
SchoolofResourcesandEnvironmental EngineeringWuhanUniversityofTechnologgeomicrobiologia-mostly,mineralsminingauiaMinerals ingeosphere:natural, chemicalsubstance;generallyinorganic,solid,crystalline,hardand chemically stableaeeeaaTwo examples:- Silicates (e.g. aluminosilicate: MAIO2)(SiO2)(H,O) -M+: is usually H+ andNat) and Felderspars (e.g., K feldspar KAlSi,O:)- (poly)metallic sulfides (e.g., pyrite FeS2; chalcopyrite CuFeS2; cylindritePb;Sn4FeSb2S14)Figures:https:/en.wikipedia.org/wiki/
-mostly, minerals mining Minerals in geosphere: natural, chemical substance; generally inorganic, solid, crystalline, hard and chemically stable Two examples: - Silicates (e.g. aluminosilicate: MAlO2 )(SiO2 ) x (H2O)y -M+ : is usually H+ and Na+ ) and Felderspars (e.g., K feldspar KAlSi3O8 ) - (poly)metallic sulfides (e.g., pyrite FeS2 ; chalcopyrite CuFeS2 ; cylindrite Pb3Sn4FeSb2S14) Figures: https://en.wikipedia.org/wiki/ 2. Research of environmental ecology, e.g. mine environment
SchoolofResourcesandEnvironmentalEngineeringWuhanUniversityofTechnologgeomicrobiologiaara(poly)metallic sulfides (e.g.,pyriteFeS2;chalcopyrite CuFeS2;cylindriteeeaPb;Sn4FeSb,S14)How to release the metal(s) that are partMineral engineeringofamineralthathasremainedmoreor-modifytheminerals'structurelessstableundernaturalconditionsandfor long periods of time (geological)?environmentalimpactFigures:https:/en.wikipedia.org/wiki/
How to release the metal(s) that are part of a mineral that has remained more or less stable under natural conditions and for long periods of time (geological)? - (poly)metallic sulfides (e.g., pyrite FeS2 ; chalcopyrite CuFeS2 ; cylindrite Pb3Sn4FeSb2S14) Mineral engineering - modify the minerals’ structure environmental impact Figures: https://en.wikipedia.org/wiki/ 2. Research of environmental ecology, e.g. mine environment
1.ROMAN?ALONGQUAENSSchoolofResourceandEnvironmental EngineeringWuhan University of TechnologyALLTOGOFAUDISCOVRTCIAAOMineral engineeringee- modifythe minerals'structure2.ANNELandTARNSH4- modify landsL(lithosphere)OPENCAELOPMENenvironmental3impactTRENCAININGWATERPORMAINhttps://en.wikipedia.org/wiki/Mining#HistoryKREAGBBSAYARAULICING
Mineral engineering - modify the minerals’ structure environmental impact and - modify lands (lithosphere) https://en.wikipedia.org/wiki/Mining#History 2. Research of environmental ecology, e.g. mine environment
School ofResourcesandEnvironmental EngineeringWuhan University of TechnologygeomicroMine environment, a human-made environment (open pitmine)
Mine environment, a human -made environment (open pit 1 mine) . Environmental ecology