Sarda Energy and Minerals Limited (SEML) has received official approval from the Chhattisgarh state government to operate a larger capacity pellet plant. The company plans to elevate its existing plant's capacity from 800,000 to 900,000 metric tons annually. Utilizing grate-kiln technology, SEML pioneers pellet production from iron ore fines, converting typically unusable ore fines into high-grade feed material for DRI and blast furnaces.
Sarda Energy and Minerals Limited (SEML) recently received a significant nod from the Chhattisgarh state government, granting permission to expand its pellet plant's capacity. The company, with a current capacity of 800,000 metric tons per year, is all set to enhance its operations to produce 900,000 metric tons annually.
A leader in innovative methodologies, SEML distinguishes itself by utilizing grate-kiln technology, a pioneering approach in India. This cutting-edge technology transforms iron ore fines into pellets, a feat previously deemed unattainable. The result? Superior-grade feed materials that serve as vital components for Direct Reduced Iron (DRI) and blast furnace processes.
The operational process at SEML involves a meticulous sequence. Initially, the fines undergo wet grinding, followed by a dewatering phase. Subsequently, the fine-sized concentrate is blended with binders and other essential additives, culminating in the formation of green balls within the disc pelletisers, as highlighted by the company.
This consent to expand the plant's capacity aligns with SEML's strategic vision to bolster its position as an industry trailblazer. The utilization of this advanced technology not only enhances production capabilities but also aids in sustainable resource utilization.
SEML's endeavor to upscale its pellet plant's capacity, backed by state approval, underscores its commitment to innovation and sustainable resource utilization. This expansion aligns with their vision of pioneering advanced methodologies in the production of superior-grade materials for critical industrial processes.