GN Separation is excited to announce the dispatch of 13 five-deck stack vibrating screens for a mineral processing project centered on the grinding and classification of ilmenite ore. As illustrated in the project images labeled “Frequency Stack Screen” and “Stack Vibrating Screen for Ilmenite,” this equipment will be installed in the customer's fine classification circuit. Its purpose is to ensure stable particle size control and enhance the overall performance of the process.
Fig.1 High Frequency Stack Screen
Fig.2 Stack Vibrating Screen for Ilmenite
Equipment Design and Functionality
This shipment of equipment is specifically tailored for the fine classification of ilmenite slurry within a closed-circuit grinding system. Each unit features a compact five-deck structure, enabling multiple layers of screening within a single machine frame. This design offers a large screening surface area relative to its overall footprint, making it an ideal choice for facilities where installation space is limited and carefully planned. Compared to traditional screening methods, the multi-deck setup optimizes equipment layout utilization and contributes to a more organized process flow within the plant.
During the design and manufacturing stages, GN placed a high priority on stability, screening accuracy, and adaptability to various feed conditions. The high-frequency vibration system is engineered to ensure consistent stratification of fine particles, maintaining a stable cut size and delivering uniform classification results. To withstand the unique characteristics of ilmenite ore, the structure is constructed using abrasion-resistant materials, and key components are designed for durability during continuous operation.
Importance in Grinding Circuits
In grinding circuits, precise classification is crucial for overall process performance. The five-deck stack vibrating screen is used to separate fine particles, which are suitable for downstream concentration processes, from coarser material that requires further grinding. A stable classification process enhances grinding efficiency, improves the management of the circulating load, and ensures a more predictable feed size distribution. These factors collectively contribute to a smoother production flow in ilmenite beneficiation.
Maintenance and Longevity
To facilitate long-term operation, GN has incorporated a modular screen panel design. This allows for easy replacement and maintenance of screen panels. Additionally, the vibration system and distribution manifold are arranged to minimize downtime during routine service operations, ensuring that the equipment remains operational with minimal interruptions.
Quality Assurance
Before shipment, each of the 13 units underwent comprehensive factory testing. This included checks on vibration performance, structural inspections, and assembly verification. GN's quality control procedures adhere to internal standards developed specifically for mineral separation equipment, ensuring that every machine delivered meets the project's technical requirements.
GN Separation's Commitment
The deployment of these stack vibrating screens underscores GN Separation's ongoing dedication to providing equipment solutions for mineral classification and fine particle processing. With extensive experience in screening, solid-liquid separation, and mineral concentration support systems, GN strives to deliver equipment that meets operational expectations across projects of varying scales.
GN Separation will continue to provide support to the client throughout the installation, commissioning, and operational phases. The company remains committed to upgrading its product line, developing technologies for fine classification, and serving the mineral processing industries, including ilmenite, zircon, silica sand, and other industrial minerals.
For further details about GN’s stack vibrating screens and mineral separation solutions, please reach out to our technical team or visit our product center.
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Published: 21 November 2025
This week, GN Separation successfully completed the assembly of four GNLW224 decanter centrifuges, along with their matching polymer dosing units, at its manufacturing plant. These pieces of equipment are slated to undergo a final inspection and acceptance test conducted by an overseas client next week.
Product Overview
The GNLW224 is the smallest-capacity model in GN Separation's lineup of decanter centrifuges specifically tailored for wastewater treatment applications. It is ingeniously engineered to deliver dependable performance even in compact spaces. Operating at a maximum rotational speed of 5,000 RPM, this centrifuge can efficiently separate solid and liquid phases from a wide range of industrial and municipal wastewater streams.
Each centrifuge comes equipped with a 3-variable-frequency drive (VFD) control cabinet. This advanced feature empowers operators to fine-tune crucial parameters, such as bowl speed, differential speed, and feed pump flow rate. By doing so, they can optimize processing conditions according to the unique characteristics of the materials being treated and specific operational needs.
Integrated Polymer Dosing Units for Enhanced Efficiency
To further boost overall treatment efficiency, the centrifuges are paired with GN Separation's polymer dosing units. These units are designed to precisely introduce flocculating agents into the wastewater stream. The addition of these agents through chemical conditioning promotes particle aggregation, which in turn makes the separation of suspended solids during centrifugation more effective. The synchronized operation of the centrifuges and dosing systems enables end-users to achieve higher solid-liquid separation rates and produce clearer effluent. This not only reduces the workload for downstream processing but also minimizes the environmental impact.
Compact Design and Robust Construction
The GNLW224 boasts a compact footprint, allowing it to be seamlessly integrated into existing plant layouts without the need for extensive modifications. This is a significant advantage for facilities looking to upgrade outdated equipment or expand their capacity within limited space. Moreover, its robust construction, featuring corrosion-resistant materials and wear-resistant components, ensures long-lasting durability. It can withstand demanding operational conditions, such as high-temperature environments or those involving abrasive sludge.
Upcoming Client Inspection Details
The upcoming client inspection will involve a comprehensive testing process for the assembled units. This includes verifying rotational speeds, water test flow rates, vibration levels, and the rise in main bearing temperature, among other parameters. GN Separation's technical team will work closely with the client's engineers during the inspection. They will demonstrate the system's capabilities and address any specific concerns the client may have regarding the integration of the new equipment with their existing infrastructure.
Market Position and Future Prospects
In recent years, there has been a steady increase in demand for compact and energy-efficient wastewater treatment technologies. This trend is driven by stricter environmental regulations and growing industrialization in emerging markets. GN Separation's decanter centrifuge is well-positioned to take advantage of this market opportunity. It offers a cost-effective alternative to larger, more complex systems without sacrificing performance. With production lines now gearing up to meet the expected demand, GN Separation is solidifying its position as a competitive player in the global wastewater treatment equipment sector.
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Published: 14 November 2025
- Duplex Stainless Steel 2205 Construction: Durability Meets Corrosion Resistance
- Tungsten Carbide Reinforcement: Prolonged Wear Resistance
- Triple Variable Frequency Drive (VFD) Control: Adaptive Process Optimization
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Published: 06 November 2025
Recently, GN Separation successfully delivered two sets of 240 m³/h trenchless mud treatment systems to a customer in Australia. Each system is designed to efficiently process drilling and trenchless construction mud, ensuring effective recycling and reuse.
Each System Includes:
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One 11.5 m mud tank
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Two desander cyclones
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Ten 5-inch desilter cyclones
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Three sand pumps
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One mixing hopper
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One agitator
These systems are designed for trenchless drilling and horizontal directional drilling (HDD) projects, where efficient solids control and fluid recovery are critical for cost reduction and environmental compliance.
Double-Deck Vibrating Screens — The Core Equipment
Each mud treatment system is equipped with two double-deck vibrating screens, which serve as the key equipment for primary solids separation. The vibrating screens remove large solids from the drilling mud, ensuring that the downstream desander and desilter units receive mud with lower solids content, thus improving the overall separation performance.
Technical Features
The double-deck vibrating screen shares design concepts with GN’s high-performance vibrating screen range, as described on GN Solids Australia’s website. The main technical features include:
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Double-Deck Structure:
Two screening decks are driven by a single vibration source, providing larger screening area and enabling two-stage separation or finer solids removal within limited space. -
Linear Vibration Motion:
The screen box operates in a linear motion pattern, ensuring efficient material conveyance and effective solids discharge. This motion type is ideal for treating slurry and liquid-solid mixtures. -
High-Quality Polyurethane (PU) Screens:
PU screens offer excellent wear resistance, elasticity, and self-cleaning properties. The high open area (typically 28–45%) ensures efficient screening while minimizing blinding. -
Compact and Space-Saving Design:
The double-deck design allows higher processing capacity within a smaller footprint — an important advantage at job sites with limited space. -
Dual-Motor Self-Synchronization Drive:
Two vibration motors work in self-synchronization to ensure stable operation and uniform vibration, reducing maintenance and energy consumption. -
Anti-Corrosion and Wear-Resistant Surface Treatment:
The screen box is treated with sandblasting, heavy-duty anti-corrosion coating, and a polyurea wear layer on surfaces exposed to mud, ensuring long service life in harsh field environments.
Application Advantages in This Project
The inclusion of double-deck vibrating screens in this system offers several operational benefits:
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Higher Primary Solids Removal Efficiency:
Coarse solids are quickly separated, reducing the solids loading on the desander and desilter units, and improving the overall treatment performance. -
Reduced Footprint and Structural Height:
Compared with two single-layer screens, the double-deck design saves space while maintaining large screening capacity — ideal for compact trenchless job sites. -
Stable and Continuous Operation:
Linear motion and flexible PU screens prevent blinding and ensure consistent performance, minimizing downtime and maintenance needs. -
Energy Efficiency and Easy Maintenance:
The simple structure, synchronized drive, and long-lasting screens help reduce operational and maintenance costs. -
Customizable Design:
The vibrating screen can be customized based on the site’s mud properties (solid content, particle size distribution, viscosity, etc.) by adjusting screen mesh size, vibration amplitude, and feeding mechanism.
Technical Reference
While this project uses double-deck vibrating screens, their design principles align with GN’s multi-deck (2–5 layers) vibrating screens, as shown on the GN Separation official website:
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Screen angle: 17.5°
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Vibration frequency: ~25 Hz
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Double amplitude: 1–2 mm
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Mesh size range: 0.045–2 mm
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Material: Polyurethane or stainless steel mesh
These parameters ensure high efficiency, precision, and stability in fine particle separation.
Operation and Maintenance Recommendations
To achieve the best field performance, GN recommends:
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Even Feeding: Install a buffer box or flow divider at the feed inlet to distribute slurry evenly across both decks.
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Regular Cleaning: For sticky or high-sand-content mud, equip the screen with a spray cleaning system to prevent clogging.
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Screen Inspection: Periodically check screen tension, mesh integrity, and fastening bolts.
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Monitor Vibration System: Keep track of motor temperature, vibration frequency, and amplitude to prevent imbalance.
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Easy Access Maintenance: Design the platform for convenient screen replacement and motor servicing.
Project Highlights & Customer Benefits
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High Processing Capacity: 240 m³/h throughput per system meets demanding trenchless operations.
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Compact Modular Design: Facilitates transportation, installation, and integration with existing job site systems.
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Improved Mud Recycling Efficiency: Ensures better fluid recovery and cleaner mud for reuse, reducing waste disposal costs.
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Reliable and Durable: Built with robust materials and proven GN manufacturing standards.
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Localized Support: GN’s technical and after-sales teams provide professional guidance for installation and commissioning in Australia.
Summary
The successful delivery of these two systems demonstrates GN Separation’s strong capability in providing efficient and reliable trenchless mud treatment solutions. With advanced design, durable equipment, and proven field performance, GN Separation continues to support clients in Australia and worldwide in achieving cleaner, more sustainable construction operations.
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Published: 31 October 2025
1. Background – Why screening matters in iron-ore mining
In the domestic (within-country) iron-ore mining context, efficient separation and classification of fine particles is increasingly important. After primary crushing and grinding, a high fraction of fine material (e.g., sub-2 mm) often needs to be removed or classified before subsequent processes (e.g., beneficiation, pelletising, tailings disposal). Using an appropriate vibrating screen for fine material helps to:
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Published: 31 October 2025
This week, GN Separation achieved a significant milestone by successfully assembling four GND5Z1014 Stack Vibrating Screens and conducting comprehensive factory tests. These specialized units, engineered for high-efficiency iron ore screening, are now undergoing rigorous final inspections. They are slated for dispatch to a major domestic iron ore mining operation next month.
The Indispensable Role of Stack Vibrating Screens in Iron Ore Processing
Iron ore stands as the bedrock of global steel production, necessitating rigorous processing to adhere to the exacting quality standards set by modern industries. Screening, a pivotal stage in this process, segregates ore particles by size, thereby optimizing the efficiency of subsequent processing steps. While traditional single-deck vibrating screens have their merits, they often fall short in handling large material volumes with precision, especially when it comes to fine particle separation.
Enter stack vibrating screens, also known as multi-deck screens, which have emerged as a game-changer. By vertically stacking multiple screening decks, these machines efficiently process large material volumes within a single unit. This compact, high-capacity design not only minimizes space requirements but also reduces energy consumption and enhances throughput compared to their single-deck counterparts. For iron ore producers, this translates into higher recovery rates of valuable minerals, lower operational costs, and improved environmental sustainability through reduced waste generation.
Key Features of the GN Stack Vibrating Screen
1. Multi-Deck Efficiency
The GND5Z1014 boasts five independent screening decks, enabling simultaneous separation of materials at varying flow rates, depending on the feed characteristics. This multi-deck configuration ensures optimal screening performance across a wide range of particle sizes.
2. High-Frequency Vibration Technology
Equipped with dual-vibration motors, the screen generates high-frequency, low-amplitude vibrations. This technology effectively prevents blinding and pegging—common challenges in sticky or moisture-laden iron ore applications. The result is consistent screening accuracy, even when processing difficult materials.
3. Robust Construction and Wear Resistance
Built with high-strength steel frames, the GND5Z1014 is designed to withstand the abrasive conditions inherent in iron ore processing. Key components, such as the screen decks, are coated with polyurea to extend their service life and minimize maintenance downtime. This robust construction ensures long-term reliability and performance.
4. Rapid Screen Mesh Replacement
The stack vibrating screen features polyurethane screen mesh, which can be quickly replaced by simply loosening and fastening the screen blocking device. This design significantly reduces downtime during mesh replacement, enhancing overall operational efficiency.
Strategic Implications and Future Prospects
The upcoming deployment of the GND5Z1014 screens highlights GN Separation's commitment to supporting China's strategic mineral security initiatives. With domestic iron ore production under increasing pressure to meet rising steel demand, efficient processing technologies are crucial for maximizing yield from existing reserves.
GN Separation's latest achievement reflects its broader strategy of integrating localized expertise with global technology trends. With the successful launch of various mining screens at its factory, GN Separation is poised to capture a larger market share in the vibrating screen market. The company is dedicated to providing professional and reliable screening solutions for users both domestically and internationally, further solidifying its position as a leader in the industry.
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Published: 31 October 2025