Hydro Metal


Rotary Kiln
Operating within controlled temperature environments, these ovens ensure precise and efficient thermal treatment of materials.

Rotary ovens are a versatile solution for efficient scrap metal processing, ensuring prompt preparation of parts and products upon arrival. With rapid recycling times and improved air quality control, they enhance cost-effectiveness in metal processing.

Adjustable air flow channels guarantee optimal baking conditions within the chamber, showcasing adaptability and precision. From scrap metal processing to high-volume bakery production, rotary kiln prove indispensable, seamlessly transitioning between diverse applications with efficiency and ease.

Wastewater Treatment Plant
This critical infrastructure safeguards ecosystems and public health by responsibly managing water resources.

A Wastewater Treatment Plant is a crucial facility dedicated to purifying water contaminated by industrial, commercial, and domestic activities. Employing a multifaceted approach, the plant utilises screening and settling processes to remove solid debris, followed by biological treatments that break down organic matter.

Advanced technologies, including disinfection, target remaining pathogens, ensuring the treated water meets stringent environmental standards. By mitigating the impact of wastewater discharge, the plant plays a pivotal role in safeguarding ecosystems, public health, and water resources.

It not only supports environmental sustainability but also promotes the responsible management of water, reflecting the commitment to balance industrial activities with the preservation of our natural environment for future generations.

Nickel Treatment Plant
Through a series of chemical and metallurgical processes, it separates, refines, and transforms nickel ores or scrap into valuable nickel products.

Nickel ions in wastewater are efficiently eliminated through advanced methods such as ion exchange, adsorption, and membrane filtration. These techniques specifically target soluble nickel forms, including hydrated nickel (II) ions and salts like acetate, bromide, chloride, iodide, nitrate, and sulphate.

Conversely, insoluble nickel compounds such as oxides, hydroxides, and sulphides necessitate pretreatment to convert them into soluble forms before removal. Ion exchange utilises specialised resins or polymers to selectively replace nickel ions, ensuring a purified effluent with reduced nickel content.

Adsorption relies on materials with a high affinity for soluble nickel, contributing significantly to contaminant removal. In tandem, membrane filtration, employing controlled pore-sized barriers, effectively captures soluble nickel, ensuring the treated effluent meets stringent purity standards.

Furnace and Smelting Pot
In contrast to wet scrubbers that tackle emissions, these systems focus on the controlled application of heat for metal transformation.

The Furnace and Smelting Pot constitute an essential duo in metallurgical processes. The furnace acts as a vital heat source, subjecting ores to intense temperatures, while the smelting pot plays a key role in extracting and processing metals from these ores. 

This dynamic collaboration is pivotal across various industries, facilitating the production of metals like iron and copper through the transformative process of smelting. The furnace, with its ability to generate high temperatures, initiates the metamorphosis of raw ores, while the smelting pot orchestrates the extraction and processing of metals. 

Together, they form the backbone of metallurgical operations, seamlessly transforming raw materials into refined metals essential for countless applications and technological advancements. Their synergistic interplay underscores their indispensable contribution to the industrial landscape.

Chemical Processing Wet Scrubber
Similar to its counterpart, it functions to eliminate harmful materials from industrial exhaust gases.

A Chemical Processing Wet Scrubber serves as a specialised solution tailored for the chemical industry, dedicated to the effective removal of pollutants from industrial exhaust gases, ensuring adherence to environmental standards. This system relies on a liquid, commonly water, to intimately engage with and capture a diverse array of pollutants present in the exhaust gases.

Through absorption or chemisorption mechanisms, the scrubber adeptly transforms these pollutants into a liquid waste stream, facilitating their safe disposal. This dual function not only guarantees the removal of harmful substances, but also underscores the system’s commitment to environmental responsibility.

The released air emerges significantly purged of contaminants, aligning with stringent environmental regulations and exemplifying the chemical industry’s dedication to sustainable and eco-friendly practices in the pursuit of a cleaner and healthier atmosphere.

Wet Scrubber
High-Tech H2O: Wet scrubbers use water or liquid solutions to capture and remove pollutants from gas streams.

Wet scrubbers, also known as flue gas desulfurizer, pioneered air pollution control technology. Utilising a wet substance, they effectively eliminate acidic gases responsible for acid rain. Envision these harmful pollutants encountering a forceful watery mist or being compelled through a shower of scrubbing liquid for thorough cleansing.

Water captures dust and particulate matter, while additional chemicals like ammonia are introduced to trap sulphur dioxide, a major acid rain culprit. These chemical warriors actively capture air pollutants, forming a protective shield around our lungs and the environment. 

Wet scrubbers play a vital role in environmental protection, combining water and chemical agents to combat and neutralise airborne contaminants, ensuring a cleaner and healthier atmosphere for all.

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