| Customization: | Available |
|---|---|
| After-sales Service: | Life Time After Sale Service |
| Warranty: | 10 Year |
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
Magnesium is one of the lightest metals in the periodic table, and it plays a crucial role in a wide range of industries, from automotive manufacturing to aerospace, electronics, and energy storage. As demand for magnesium continues to rise, manufacturers are turning to advanced Magnesium Metal Production Lines to meet these needs efficiently and sustainably.
One of the most popular and effective methods for magnesium production is through the use of Rotary Kilns. These large, rotating furnaces are designed to process raw materials into magnesium metal by using heat and controlled environments, producing high-purity magnesium that can be further processed into alloys and used for various applications.
High Efficiency and Energy Conservation
Modern Magnesium Metal Rotary Kiln Production Lines are engineered for maximum efficiency, reducing energy consumption during the magnesium production process. With the rising costs of energy, having a system that minimizes fuel consumption while maintaining production capacity is essential for businesses looking to stay competitive. These advanced systems are designed to optimize airflow, reduce heat loss, and offer automation features to improve performance.
Automation and Precision Control
The latest rotary kiln equipment integrates sophisticated control systems that allow for precise temperature and atmosphere regulation within the kiln. This ensures consistent production quality and enables manufacturers to meet the stringent purity requirements for magnesium. Automation further reduces human error, lowers operational costs, and increases the overall reliability of the production line.
High-Quality Raw Materials Processing
The magnesium metal rotary kiln is designed to efficiently process a variety of raw materials, including dolomite and magnesite, into high-purity magnesium. This process involves the calcination of these materials at high temperatures, often over 1000°C, which results in the release of carbon dioxide and the production of magnesium oxide (MgO). The oxide is then reduced to magnesium metal through the use of a reducing agent, typically silicon.
Sustainability and Environmental Responsibility
As environmental concerns continue to grow, the importance of sustainable manufacturing practices becomes paramount. A Magnesium Metal Production Line equipped with energy-saving features and emissions-reduction technologies significantly reduces the carbon footprint of the magnesium production process. By integrating state-of-the-art filtration systems and improving energy efficiency, these lines contribute to the overall goal of sustainable industrial development.
Cost-Effectiveness
With their energy-efficient design and long-lasting durability, rotary kiln production lines offer manufacturers a cost-effective solution to magnesium production. The reduced need for maintenance and the energy savings result in a lower overall cost of production. In the long run, this makes the investment in a rotary kiln production line highly profitable.
Scalability and Flexibility
Magnesium Metal Rotary Kiln Production Lines can be customized to fit the production capacity needs of businesses of all sizes. Whether you are a small-scale manufacturer or a large industrial plant, the production line can be tailored to suit your requirements. Scalability ensures that as your production demand grows, your system can be upgraded to accommodate higher volumes of output.
Low Maintenance and High Durability
The materials used to construct rotary kilns and their components are designed to withstand the extreme temperatures and wear-and-tear associated with the production of magnesium. The long lifespan of these machines, combined with their low maintenance requirements, makes them a smart investment for any company looking to optimize its production line.
Magnesium is widely used in numerous industries due to its exceptional properties. Some of its main applications include:
Automotive Industry: Magnesium alloys are lightweight and strong, making them ideal for use in car parts such as wheels, engine blocks, and body frames.
Aerospace: The low weight and high strength-to-weight ratio of magnesium make it a popular choice for aircraft components, contributing to overall fuel efficiency.
Electronics: Magnesium alloys are used in mobile phones, laptops, and other electronic devices, offering a strong yet lightweight housing.
Energy Storage: Magnesium is being explored as a potential material for rechargeable batteries, especially for electric vehicles (EVs), due to its high energy density.
China has become a global leader in magnesium production, with Made in China magnesium equipment being known for its affordability, innovation, and reliability. The Magnesium Metal Rotary Kiln Production Line made in China is a prime example of how technological advancements are shaping the future of magnesium production.
By combining cutting-edge technology with cost-effective manufacturing, Chinese producers are able to offer magnesium production lines that deliver top-notch performance at competitive prices. For international customers, these systems offer an excellent opportunity to enhance production while maintaining a focus on sustainability and efficiency.
The Magnesium Metal Rotary Kiln Production Line is an essential tool for the modern magnesium manufacturing industry. With advancements in automation, energy efficiency, and sustainability, it ensures that manufacturers can meet the growing global demand for high-quality magnesium while reducing operational costs. Whether you're in the automotive, aerospace, or electronics industry, investing in a high-performance magnesium production line will help you stay ahead in a competitive market. And with Made in China equipment leading the way, businesses worldwide can benefit from the best in technological innovation and manufacturing excellence.
| Basic parameters | |
| Product Name | Magnesium Production Line |
| Dimension | Φ1.6x32m-Φ5.2×72m |
| Capacity | 10,000-200,000 Tons/Year |
| Fuel | Coke oven gas, natural gas, coal bed methane, pulverized coal, etc. |
| Main Technical Specifications | ||||||
| Dimension/m | Speed(r/min) | Slope/% | Capacity(t/h) | Reducer | Motor Model | Motor Power |
| φ1.6×32m | 0.58-2.85 | 4 | 2 | ZQ75-50 | YCT250-4A | 18.5 |
| φ1.6/1.9×36m | 0.53-1.59 | 4 | 2.5-3 | ZQ110-7 | YCTZ50-4B | 22 |
| φ1.9×39m | 0.53-1.59 | 4 | 3-3.4 | ZQ125-7 | YCT315-4A | 37 |
| φ2.2×45m | 0.214-1.64 | 3.5 | 4-5 | Main: ZS125-5 | YCT315-4B | 45 |
| Auxiliary:ZQ40-40 | Y112M-4 | 4 | ||||
| φ2.5×50m | 0.62-1.5 | 3.5 | 5-6 | Main:ZS165-5 | YCT355-4A | 55 |
| Auxiliary:ZS50-1 | Y160M-6 | 7.5 | ||||
| φ2.5×55m | 0.62-1.5 | 3.5 | 5-6 | Main: ZS165-5 | YCT355-4A | 55 |
| Auxiliary:ZS50-1 | Y160M-6 | 7.5 | ||||
| φ2.8×55m | 0.62-1.5 | 3.5 | 6-7 | Main: ZS165-5 | YCT355-4B | 75 |
| Auxiliary:ZS50-1 | Y160L-6 | 11 | ||||
| φ3.0×60m | 0.5-1.5 | 3.5 | 7-9 | Main:ZS165-3 | ZSN-280-11B | 125 |
| Auxiliary:ZS50-1 | Y160L-6 | 11 | ||||
| φ3.2×64m | 0.4-1.5 | 3.5 | 8-10 | Main:ZS130-16 | ZSN-280-11B | 190 |
| Auxiliary:Zl50-1 | Y180L-4 | 22 | ||||
| φ3.5×70m | 0.4-1.5 | 3.5 | 12-14 | Main:ZSY500-40 | ZSN-315-082 | 280 |
| Auxiliary:Zl50-14 | Y180L-4 | 22 | ||||
| φ4.0×80m | 0.4-1.5 | 3.5 | 16-20 | Main:ZLY630-35.5 | ZSN-315-12 | 355 |
| Auxiliary:ZSY280-35.5 | Y200L-4 | 30 | ||||
| Product Advantages |
Fuel combustion equipment: Use energy-saving burners to automatically control the air distribution volume and improve the thermal efficiency of the fuel. |
| There is a vertical preheater at the end of the rotary kiln, which makes full use of the high-temperature flue gas generated by the combustion of the rotary kiln to preheat the materials in the preheater. Through this, the materials can partially decompose in the preheater, increase the system output and improve thermal efficiency. | |
| There is a vertical cooler at the head of the rotary kiln, which makes full use of the heat contained in the high-temperature whitened material of the rotary kiln to preheat the secondary air to 650°C, thereby improving the thermal efficiency and achieving good economic benefits. |
){kind=link}