• Zn-Schulenbergite Mineral Data

    www.webmineral.com/data/Zn-Schulenbergite.shtml General Zn-Schulenbergite Information : Chemical Formula: (Zn,Cu)7(SO4,CO3)2(OH)10•3(H2O) Composition: Molecular Weight = 852.26 gm Zinc 38.36 % Zn 47.75 % ZnO: Copper 14.91 % Cu 18.67 % CuO: Hydrogen 1.89 % H 16.91 % H 2 O: Carbon 0.70 % C 2.58 % CO 2: Sulfur 5.64 % S 14.09 % SO 3: Oxygen 38.48 % O: 100.00 % 100.00 % = TOTAL OXIDE
  • Schulenbergite Mineral Data

    www.webmineral.com/data/Schulenbergite.shtml Schulenbergite group : 31.01.06.01 Schulenbergite (Cu,Zn)7(SO4,CO3)2(OH)10•3(H2O) Hex Hex : 31.01.06.02 Bechererite! (Zn,Cu)6Zn2(OH)13[(S,Si)(O,OH)4]2 P 3 3 : 31.01.06.03 Osakaite! Zn4SO4(OH)6•5H2O P 1 1 : 31.01.06.04 Zn-Schulenbergite! (Zn,Cu)7(SO4,CO3)2(OH)10•3(H2O) Hex Hex : Strunz Class:
  • Sulfate mineral - Wikipedia

    en.wikipedia.org/wiki/Sulfate_mineral The sulfate minerals are a class of minerals that include the sulfate ion (SO 4 2−) within their structure.The sulfate minerals occur commonly in primary evaporite depositional environments, as gangue minerals in hydrothermal veins and as secondary minerals in the oxidizing zone of sulfide mineral deposits. The chromate and manganate minerals have a similar structure and are often included ...
  • Nentsberry Haggs Mine, Alston Moor, Eden, Cumbria, England, UK

    www.mindat.org/loc-1413.html Nentsberry Haggs Mine, Alston Moor, Eden, Cumbria, England, UK : Grid reference is GPS confirmed. Gated portal on the north side of Nenthead - Alston road 150 yards west of Nentsberry Bridge. The level is now collapsed and the Cumbrian workings are only ...
  • Rubtsovsk Mine, Rubtsovsky District, Altai Krai, Russia

    www.mindat.org/loc-203514.html Rubtsovsk Mine, Rubtsovsky District, Altai Krai, Russia : Volcanogenic massive sulphide (VMS) deposit. Located about 145 km from Zmeinogorsk, and 35 km from Kazakhstan-Russia border.
  • Schulenbergite Mineral Data

    webmin.mindat.org/data/Schulenbergite.shtml General Schulenbergite Information : Chemical Formula: (Cu,Zn)7(SO4,CO3)2(OH)10•3(H2O) Composition: Molecular Weight = 846.73 gm Zinc 15.45 % Zn 19.22 % ZnO: Copper 37.52 % Cu 46.97 % CuO: Hydrogen 1.90 % H 17.02 % H 2 O: Carbon 0.71 % C 2.60 % CO 2: Sulfur 5.68 % S 14.18 % SO 3: Oxygen 38.74 % O: 100.00 % 100.00 % = TOTAL OXIDE
  • Improved Passive Treatment of High Zn and ... - ResearchGate

    www.researchgate.net/.../23955207_Improved_Passive_Treatment_of_High_Zn_and_M... These studies used adsorption processes to remove small amounts of Zn [13,14] or precipitation and adsorption processes to remove aqueous concentrations of Zn and Mn as high as 80 and 15 mg/L ...
  • JonN L. Jlrvrnon - Mineralogical Society of America

    www.minsocam.org/ammin/AM78/AM78_233.pdf JAMBOR AND GREW: NEW MINERAL NAMES 235 of hydrothermal fluids and vadose (i.e., aerated) HrO. E.S.G. Zn schulenbergite A. Livingstone, B. Jackson, P.J. Davidson (1992 ...
  • Field multi-step limestone and MgO passive system to treat ...

    www.sciencedirect.com/science/article/abs/pii/S088329270900239X Precipitation of divalent metals (Fe (II), Zn, and traces of Cd, Ni and Co) were complete inside the third tank of MgO, but preferential flow along the walls was responsible for its low treatment performance. Goethite, gypsum, Zn-schulenbergite and sauconite are the crystalline solid phases identified in the MgO tank.
  • Sequential extraction and DXRD applicability to poorly ...

    www.researchgate.net/.../250130414_Sequential_extraction_and_DXRD_applicabili... Sequential extraction and DXRD applicability to poorly crystalline Fe and Al-phase characterization from an acid mine water passive remediation system Article in American Mineralogist 94(7):1029 ...