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Mining Power Solutions

Engineered for the harshest conditions on earth — reliable power distribution where failure is not an option

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Industry Overview

Mining operations present some of the most demanding electrical environments in industry. From deep underground shafts where explosive gases accumulate, to remote open-pit mines in extreme climates, power distribution systems must perform reliably under conditions that would disable conventional equipment. Electrical failures in mining carry consequences far beyond production loss — they threaten human life.

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Harsh Environment

Dust, moisture, vibration, and corrosive atmospheres demand equipment built beyond standard industrial ratings.

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Remote Locations

Mines operate far from grid infrastructure, requiring robust autonomous power systems with minimal maintenance needs.

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Safety Critical

Explosive gas and dust atmospheres require ATEX-certified, flameproof equipment — compliance is non-negotiable.

Key Challenges

💨 Dust & Contamination

Fine particulate matter penetrates conventional enclosures, causing tracking, insulation breakdown, and contact failure. IP55+ is the minimum requirement.

🌡️ Extreme Temperatures

Equipment must operate from -40°C in high-altitude surface mines to +55°C in deep underground workings with limited ventilation.

📳 Vibration & Shock

Blasting, heavy machinery, and conveyor systems generate continuous vibration. Equipment must withstand mechanical stress without loosening or failing.

🔧 Limited Maintenance Access

Underground equipment may be kilometres from the shaft entrance. Maintenance windows are short; equipment must be exceptionally reliable and accessible.

💥 Explosive Atmospheres

Methane and coal dust create Group I explosive atmospheres. ATEX/IEC 60079 compliance with flameproof or increased-safety enclosures is mandatory.

📐 Space Constraints

Underground openings have fixed dimensions. Equipment must pass through drifts and shafts, often requiring compact or modular designs.

Our Solutions

⚡ Mine-Duty Transformers

Purpose-built for mining environments with ATEX-certified flameproof enclosures, dry-type or less-oil construction, and ratings from 100kVA to 50MVA. Designed for shaft transport and underground installation.

  • • Group I ATEX certification (Ex d I / Ex e I)
  • • IP55–IP65 protection as standard
  • • Dry-type cast resin or less-oil designs
  • • Temperature class T1–T4 available

🏗️ Compact Underground Substations

Integrated transformer-switchgear units engineered for mine shaft dimensions. Single-enclosure design eliminates external cabling, reduces installation time, and provides complete protection in Zone 1 and Zone 2 areas.

  • • Transportable through standard drift openings
  • • Combined HV/LV protection in one enclosure
  • • Remote monitoring capability
  • • Ratings up to 4000kVA at 6.6kV/3.3kV

🔥 Flameproof Switchgear

Medium-voltage and low-voltage switchgear in flameproof enclosures rated for Group I mining atmospheres. Vacuum circuit breakers with proven reliability under arduous duty cycles.

  • • Ex d I flameproof certification
  • • Vacuum interrupter technology
  • • 3.3kV, 6.6kV, and 11kV ratings
  • • Integrated protection relays

📊 Instrument Transformers

Current and voltage transformers for mining metering and protection, available in ATEX-certified designs for installation in hazardous zones. High accuracy class ensures reliable protection relay operation.

  • • ATEX Group I certified options
  • • Accuracy class 0.2 / 0.5 / 0.2S
  • • Cast resin insulated, maintenance-free
  • • Designed for mining duty cycles

Product Showcase

Power Transformers

Mine-duty, dry-type, and oil-immersed transformers rated up to 50MVA with ATEX certification.

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Flameproof Switchgear

MV and LV switchgear in Ex d I enclosures for Zone 0/1 mining atmospheres.

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Instrument Transformers

CTs and VTs for mining protection and metering, ATEX-certified for hazardous zones.

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Technical Specifications

ParameterStandard DutyHeavy DutyExtreme Duty
Protection RatingIP54IP55IP65 / IP67
Ambient Temperature-25°C to +40°C-40°C to +55°C-50°C to +60°C
ATEX ClassificationEx e I (Zone 2)Ex d I (Zone 1)Ex d I (Zone 0)
Seismic Qualification0.2g0.3g0.5g
Vibration LevelIEC 60068-2-6IEC 60068-2-6 enhancedIEC 60068-2-27 shock
Altitude DeratingUp to 1000mUp to 3000mUp to 5000m
Insulation ClassClass F (155°C)Class H (180°C)Class C (220°C)

Standards & Compliance

Explosion Protection

  • IEC 60079 — Explosive atmospheres equipment
  • EN 60079 — European ATEX harmonized standard
  • ATEX Directive 2014/34/EU — EU certification
  • IEC 60079-1 — Flameproof enclosures (Ex d)
  • IEC 60079-7 — Increased safety (Ex e)

Equipment Standards

  • IEC 60076 — Power transformers
  • IEC 62271 — High-voltage switchgear
  • IEC 61869 — Instrument transformers
  • ISO 9001 — Quality management system
  • IEC 60068-2 — Environmental testing

Case Study

Underground MiningCopper Mine

50MVA Underground Substation — Kamoa Copper Mine, Democratic Republic of Congo

When a major copper mining operation in Central Africa required reliable power distribution for a new underground block cave operation at 1,200m depth, Ziyao Power delivered a complete power solution under extreme schedule pressure. The project involved designing, manufacturing, and commissioning flameproof transformers and switchgear rated for Group I explosive atmospheres in a high-temperature, high-humidity environment with limited shaft access.

50MVA
Total Capacity
33/6.6kV
Voltage Ratio
Ex d I
ATEX Rating
18 Weeks
Delivery

The solution comprised two 25MVA dry-type transformers in flameproof enclosures, 6.6kV vacuum switchgear with integrated protection, and a complete SCADA monitoring system. All equipment was designed for transport through the 4.0m × 3.5m shaft opening and assembled underground. The system achieved zero-downtime commissioning and has operated continuously since energization in Q2 2025.

Why Choose Ziyao Power

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Technical Support

Deep expertise in mining power systems across copper, gold, coal, and platinum operations worldwide.

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ATEX Certified

Full ATEX Group I certification for flameproof and increased-safety equipment in mining atmospheres.

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Custom Engineering

Every mine is different. We engineer solutions for your specific conditions — altitude, climate, shaft dimensions, and duty cycles.

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Global Delivery

Equipment delivered to mines across Africa, South America, Central Asia, and Southeast Asia with full logistics support.

Frequently Asked Questions

What makes a transformer suitable for underground mining?
Underground mining transformers must meet ATEX/IEC 60079 explosion-proof requirements, have IP55 or higher enclosures to resist dust and water ingress, operate in ambient temperatures up to 55°C, and fit within the restricted cross-sections of mine shafts. They also require flameproof or increased-safety enclosures depending on the zone classification.
What is ATEX certification and why is it required for mining equipment?
ATEX certification confirms that equipment meets the European directive for use in explosive atmospheres. In mining, methane gas and coal dust create explosive environments classified as Group I (mining). Equipment must be certified as Category M1 or M2, with M1 providing the highest level of protection ensuring safety even with two independent faults.
What IP rating is required for mining electrical equipment?
Mining equipment typically requires IP55 minimum for general underground use, IP65 for equipment exposed to water jets or heavy dust, and IP67 for equipment that may be submerged or subjected to high-pressure washdown. Surface mining equipment may accept IP54 in sheltered locations.
How are compact substations designed for underground mines?
Underground compact substations integrate transformer, switchgear, and protection equipment into a single flameproof enclosure optimized for mine shaft dimensions. They are designed for transport through standard drift openings (typically 3.5m × 3.5m), use dry-type or less-oil transformers to eliminate fire risk, and include integrated monitoring for remote diagnostics.
What voltage levels are common in mining power distribution?
Surface mining commonly uses 6.6kV, 11kV, and 33kV for primary distribution with 400V for auxiliary systems. Underground mining typically uses 3.3kV or 6.6kV for main distribution and 1.1kV or 3.3kV for face equipment. Longwall operations may use 3.3kV directly at the coal face for high-power shearers.
Can Ziyao Power customize equipment for specific mine conditions?
Yes. Ziyao Power provides full customization including altitude derating (up to 5000m), special ambient temperature ranges (-40°C to +55°C), seismic qualification, non-standard voltage ratios, and site-specific protection schemes. We work with mine engineers to match equipment to geological and operational conditions.
What standards govern mining electrical equipment?
Key standards include IEC 60079 (explosive atmospheres), IEC 60076 (power transformers), IEC 62271 (switchgear), IEC 61869 (instrument transformers), ISO 9001 (quality management), and region-specific standards such as EN 60079 (Europe), MSHA (USA), and AS/NZS 60079 (Australia/New Zealand).
What is the typical lead time for mining-grade transformers?
Standard mining transformers (up to 10MVA, 33kV class) have a lead time of 12–16 weeks. Custom-engineered units with ATEX certification and special requirements may take 18–24 weeks. Ziyao Power maintains strategic inventory of core components to accelerate delivery for urgent mine development timelines.

Ready to Power Your Mine?

Whether you're developing a new underground operation or upgrading an existing power system, our mining specialists will design a solution engineered for your conditions.

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