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Mexico

Santa Eulalia Mine

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Overview

Mine TypeUnderground
StatusTemporary Suspension
Commodities
  • Zinc
  • Lead
Production Start... Lock
SnapshotSanta Eulalia mining complex is a part of IMMSA mining unit.

The main mines in Santa Eulalia are The Buena Tierra mine and the San Antonio mine.

In the first quarter of 2020, the Santa Eulalia mine temporarily suspended operations due to flooding. The Southern Copper is evaluating different options to supply the Santa Eulalia concentrator. The Southern Copper is also evaluating drainage at the mining facilities and determining if it is possible to sell the water for agricultural or other uses.

There is evidence of mineralization at Level 8 inside the San Antonio mine. The drilling program is in place to verify the continuity of mineralization. The mine is currently flooded. In December 2023, the gauging stage with the new pumping system began, but it is currently not clear if the mine can be dewatered.

Owners

SourceSource
CompanyInterestOwnership
Grupo Mexico, S.A.B. de C.V. 88.87 % Indirect
Ownership Tree
Industrial Minera Mexico, S.A. de C.V. (together with its subsidiaries, the “IMMSA unit”) operates five underground mines that produce zinc, lead, copper, silver and gold, a coal mine and a zinc refinery.

IMMSA’s principal mining facilities include Charcas, Santa Barbara, San Martin, Santa Eulalia and Taxco.

Deposit type

  • Skarn

Summary:

The geologic setting of the Santa Eulalia district is similar to other high-temperature, carbonate-hosted Ag-Pb-Zn deposits of northern Mexico. The host rocks are Cretaceous limestones intruded by felsite and diabase dikes and sills.

Mineralization is associated in time and space with the felsite intrusions in two zones known as the East and West camps, which lie on opposite flanks of a broad, doubly plunging anticline. The felsites are texturally and compositionally indistinguishable and have identical REE patterns. West camp mineralization consists of massive sulfide mantos and chimneys with lesser mineralized breccias and skarn bodies. East camp mineralization consists of dike contact skarns with subordinate massive sulfide bodies. Structural controls on mineralization in both camps include reactivated fold-related fracturing and faulting as well as intrusive contacts. Host-rock lithology (specially secondarily enhanced permeability) controls ore distribution in the upper and peripheral parts of the district. Ten different ore types have been recognized in the district, but only the normal sulfides, silicates (calcic-iron skarns), and calc-silicate skarn ores were examined in this study. The ore mineralogy throughout the district is relatively simple, consisting of pyrrhotite, pyrite, sphalerite, and galena with minor amounts of calcite, quartz, fluorite, and in places calc-silicate gangue. Despite stark differences in trace metal contents and the amount and composition of the skarns in the two camps, the overall geologic character, fluid inclusion compositions, sulfur, oxygen and carbon isotope characteristics and alteration assemblages are similar enough to indicate that the ore fluids for both camps had a common origin.

West camp mineralization
Manto and chimney deposits are the most common types of mineralization in the West camp. The ore mineralogy consists of pyrrhotite, galena, sphalerite, and pyrite, replacing limestone with little alteration of the host rock. Skarn mineralization is more limited, present as either silicate or calc-silicate orebodies. Silicate orebodies consist of Ca-Fe silicates with Mn-rich compositions. The silicate orebodies are reported to have higher silver values than the manto ores. Ca-silicate orebodies consist of calcic skarn silicate minerals and an ore assemblage of galena, sphalerite, arsenopyrite, pyrite, and pyrrhotite. Trace amounts of chalcopyrite and pyrrhotite,
argentopyrite, polybasite, and stephanite are also reported as discrete minerals in the calc-silicate ores.

East camp mineralization
Mineralization in the East camp is controlled by structures related to the San Antonio graben and the contacts of a series of felsite dikes that follow and cut across the graben faults. Skarn mineralization dominates and calc-silicate mineralogy is bilaterally and symmetrically zoned outward from the dikes. The dikes are widely converted to calc- silicates. Most of the sulfides in the East camp occur within the skarn, but podiform sphalerite + pyrite ± pyrrhotite bodies (± galena) commonly occur between the skarns
and the enclosing limestone. Massive sulfide mantos composed of galena, sphalerite, and pyrrhotite, are texturally similar to the West camp ores and occur in contact with, and peripheral to, the skarns.

Mining Methods

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Comminution

Crushers and Mills

Milling equipment has not been reported.

Processing

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Production

CommodityProductUnits20202019201820172016
Zinc Metal in concentrate kt  ....  Subscribe13161416
Lead Concentrate kt

Operational metrics

Metrics202320222021202020192018201720162015
Annual milling capacity  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe547.5 kt547.5 kt547.5 kt547.5 kt547.5 kt
Tonnes milled  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe327.1 kt316 kt283.9 kt278.2 kt34.6 kt
Daily milling capacity  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe1,450 t1,450 t

Production Costs

Commodity production costs have not been reported.

Financials

Units2023202220212020201920182017
Book Value M USD  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe 41.2   37.3   30.2  

Heavy Mobile Equipment

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Personnel

Mine Management

Job TitleNameProfileRef. Date
....................... Subscription required ....................... Subscription required Subscription required Aug 8, 2024

EmployeesYear
...... Subscription required 2014

Aerial view:

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