1. PAINPOINT DRIVEN OPENING

Are escalating operational costs and unpredictable downtime eroding your gold recovery margins? Inconsistent feed material, mechanical failures in harsh environments, and inefficient separation processes directly impact your bottom line. Consider these common challenges:
Recovery Losses: Even a 12% loss of fine or coarse gold due to inadequate equipment design represents significant, avoidable revenue leakage over a mine's lifecycle.
High Maintenance Downtime: Equipment not built for abrasive, continuous operation in remote locations leads to frequent stoppages, costly parts replacement, and diverted labor.
Energy and Water Intensity: Inefficient processing systems consume excessive power and water, driving up operational expenses and environmental management costs.
Operational Inflexibility: Fixedcapacity plants struggle with variable ore grades and feed rates, limiting responsiveness to changing deposit characteristics.
Safety and Environmental Risks: Outdated or poorly configured equipment can increase exposure to hazardous materials and complicate regulatory compliance.

The central question for plant managers is: how can you achieve higher recovery rates while simultaneously controlling operational costs and improving system reliability?

2. PRODUCT OVERVIEW

This product line encompasses heavyduty, precisionengineered Gold Mining Equipment designed for the rigorous demands of alluvial (placer) and hard rock (lode) mining operations. Our solutions focus on the efficient liberation, concentration, and recovery of gold particles.

A typical operational workflow integrates several key stages:
1. Primary Size Reduction & Scrubbing: Crushing and scrubbing units break down ore and liberate gold particles from clayey or conglomerate material.
2. Gravity Concentration: Dense media separators, centrifugal concentrators, or jigs exploit the high specific gravity of gold to produce a primary concentrate.
3. Secondary Concentration & Refinement: Shaking tables or advanced concentrators upgrade the primary concentrate, removing lighter gangue materials.
4. Security & Final Recovery: Intensive cyanidation units (like CIP/CIL plants) or direct smelting solutions extract gold from highgrade concentrates or gravity tails.
5. Tailings Management: Efficient pumps and dewatering equipment handle process residues for safe storage or water recycling.

Application scope includes largescale commercial mining operations, midtier contractors, and established exploration companies. Limitations exist for ultrahighaltitude or extreme Arctic operations without specific configuration; our engineering team provides sitespecific validation.

3. CORE FEATURES

Modular Plant Design | Technical Basis: Preengineered, skidmounted modules with standardized interfaces | Operational Benefit: Rapid deployment and commissioning reduces site construction time by up to 40%. Plant capacity can be scaled with additional modules. | ROI Impact: Faster timetoproduction improves cash flow; modularity lowers future capital expenditure for expansion.

AbrasionResistant Lining Systems | Technical Basis: Highchrome alloy or proprietary polymer liners in critical wear zones | Operational Benefit: Extends service life of cyclones, pump volutes, and launder surfaces by 300600% compared to standard steel. | ROI Impact: Dramatically reduces spare parts inventory costs and frequency of replacement downtime.

Intelligent Process Control System | Technical Basis: PLC/SCADA system with sensors for density, pressure, and mass flow | Operational Benefit: Enables realtime monitoring and automated adjustment of feed rates, water addition, and concentrate grade for optimal recovery. | ROI Impact: Maintains peak efficiency; field data shows a consistent 35% improvement in overall recovery through stable operation.

HighG Force Centrifugal Concentration | Technical Basis: Enhanced gravitational field within a rotating drum to capture fine gold | Operational Benefit: Recovers micronsized gold particles (down to ~10 microns) typically lost in traditional sluice systems. | ROI Impact: Captures additional valuable product; essential for maximizing yield from complex ores.

Water Recycling Circuit Integration | Technical Basis: Closedloop design with thickeners and clarifiers | Operational Benefit: Reduces fresh water makeup requirements by 7085%, a critical advantage in arid regions. Minimizes environmental footprint. | ROI Impact: Lowers water acquisition costs significantly; simplifies permitting.

HeavyDuty Structural Engineering | Technical Basis: Finite Element Analysis (FEA)optimized frames using hightensile steel | Operational Benefit: Withstands constant vibration and dynamic loads without fatigue cracking during continuous 24/7 operation cycles.| ROI Impact: Eliminates structural failure as a source of unplanned downtime over the asset's lifespan.

4. COMPETITIVE ADVANTAGES

| Performance Metric | Industry Standard Benchmark | Our Gold Mining Equipment Solution | Documented Advantage |
| : | : | : | : |
| Overall Gold Recovery Rate (Alluvial) | 8592% depending on particle size distribution| Consistent operation above 95% with finegold module| +3% to +10% Recovery Improvement |
| Mean Time Between Failures (Critical Pump) | ~1,200 operating hours| Exceeds 2,500 operating hours with abrasion package| +108% Reliability Improvement |
| Energy Consumption per Ton Processed| Varies widely; often unoptimized| Guaranteed maximum kWh/t based on plant configuration| Up to 1520% Energy Reduction |
| OnSite Commissioning Time (200 tph Plant)| 812 weeks after component arrival| 46 weeks with preassembled modules| ~50% Faster Deployment |

5. TECHNICAL SPECIFICATIONS

Specifications vary by plant configuration. Below are representative ranges for a standard modular gravity concentration plant:

Capacity/Rating: Configurable from 50 Tonnes Per Hour (TPH) to over 500 TPH per processing line.
Power Requirements: Primary plant power demand ranges from 150 kVA (smaller units) to over 1 MVA (largescale facilities). All major motors are IP66 rated for dust/moisture protection.
Material Specifications: Contact surfaces in slurry lines use ASTM A532 Class III Type A highchrome white iron (>28% Cr). Structural components use S355JR grade steel.
Physical Dimensions: Modular skid dimensions optimized for standard containerized transport (max width ~2.5m). Full plant footprint is provided per client layout.
Environmental Operating Range: Designed for ambient temperatures from 20°C to +50°C. Optional packages available for tropical/humid or subarctic conditions.

6. APPLICATION SCENARIOS

Alluvial Placer Operation in West Africa

Challenge: A contractor faced declining recoveries using traditional sluices due to an increasing proportion of fine (<100 micron) "flour" gold in their deposit. Significant value was being lost to tailings.
Solution: Implementation of a modular wash plant integrating aggressive scrubbing followed by a bank of highG force centrifugal concentrators specifically tuned for fine gold recovery.
Results: Overall site recovery increased from an estimated 78% to 94%. The payback period on the new equipment was achieved in less than five months of operation based on recovered additional ounces.

Hard Rock Quartz Vein Processing in Latin America

Challenge: A midtier miner's existing jaw crusher/ball mill circuit produced a coarse grind that limited cyanide leach efficiency (~86%), while energy costs were prohibitive.
Solution: Introduction of a secondary cone crusher circuit for finer primary crushing and replacement with a more efficient vertical shaft impactor (VSI) grinding mill ahead of leaching.
Results: Grind size optimized for liberation improved leach recovery to 93%. The more efficient VSI mill reduced specific energy consumption by approximately 18%, lowering operating cost per tonne.

7.COMMERCIAL CONSIDERATIONS

Our Gold Mining Equipment is offered under clear commercial frameworks:

Pricing Tiers:
Tier I Standard Module Range: Fixed pricing on catalogued items (e.g., individual crushers, pumps).
Tier II Configured Modular Plants: Engineeredtoorder solutions priced based on capacity rating (200 TPH).
Tier III Full Turnkey Processing Facilities Projectbased quotation following full feasibility review.

Optional Features & Upgrades: Common upgrades include advanced wear monitoring systems,
onboard power generation packages,
and automated reagent dosing systems
for leaching circuits

Service Packages: Choose from Bronze
(Scheduled Parts Supply),
Silver
(Annual Inspections + Parts), or Gold
(OnSite Technician + Guaranteed Uptime)
maintenance plans

Financing Options Available through our partners include:
3660 month equipment leasing structures
20/80 purchase financing plans
12month deferred payment terms

for qualified buyers

8.FAQ

Q1 Is your equipment compatible with our existing crushing circuit?
A1 Our modules are designed with flexible interconnection points Industrystandard flanges chute designs
and control voltage allow integration We conduct an audit of your current layout prior

to finalizing specifications

Q2 What is the expected operational impact during commissioning?
A2 For modular plants we target full commissioning within fourtosix weeks Our team manages the process aiming

to minimize disruption We provide detailed rampup protocols

for your operators

Q3 Do you offer performance guarantees?
A3 Yes we provide process performance guarantees based on representative ore samples tested at our facility These guarantees cover minimum recovery rates maximum energy consumption levels

and throughput capacity under defined conditions

Q4 What are the typical lead times?
A4 Lead times vary Standard modules ship within eighttoten weeks Configured plants require twelvetosixteen weeks Full turnkey projects follow an agreed project timeline outlined during contracting

Q5 How do you handle spare parts supply?
A5 We maintain strategic global parts depots Critical wear parts are stocked against your serial number You can also enroll in our automated parts replenishment program based on predicted wear cycles