Eastern Province Cement Company

Engineering a Cleaner, Smarter Future from the Eastern Province

Line 5

A New Generation of Production Technology

The new 10,000 ton per day clinker production line represents the most significant single investment in EPCC’s operational history and embeds the full range of advanced cement manufacturing technology available today.

The line integrates high-efficiency preheater systems, modern clinker cooler technology, optimized grinding systems, and advanced process control from the ground up. All major process fans are equipped with Variable Frequency Drives, enabling continuous matching of airflow to process demand rather than throttling fixed-speed drives. The design targets 20 to 25 percent lower specific power consumption and 25 to 30 percent lower thermal energy consumption compared with the existing clinker lines. If these design targets are achieved at commercial scale, Line 5 will operate at a significantly lower energy intensity than any of the four existing lines, reducing the blended plant average and establishing a new performance benchmark for the Eastern Province operation.

From an environmental perspective, Line 5 is equipped with modern baghouse filtration systems capable of maintaining dust emissions below 10 mg per normal cubic meter, a level that meets international best-practice standards for particulate emissions. Selective Non-Catalytic Reduction technology is installed to control nitrogen oxide emissions during clinker production, addressing one of the more technically challenging emission streams in cement manufacturing. The combination of sub-10 mg/Nm³ dust control and SNCR-based NOx reduction gives Line 5 an environmental performance profile that aligns with the requirements of the most demanding regulatory frameworks in the global cement sector.

Smart Quality Control

The Robotic Laboratory

As part of the Line 5 modernization program, EPCC is implementing an automated sampling and robotic laboratory system that represents a significant upgrade in process quality control capability.

Automatic sample collectors are installed at key locations across the full production chain: raw material streams, raw meal, kiln feed, clinker, and cement grinding circuits. Samples are automatically transported to the central laboratory where robotic systems perform preparation and analysis, eliminating the handling variability and cycle time of manual sampling. The laboratory integrates online raw material analyzers, online free lime analyzers, online particle size analyzers, and online X-ray fluorescence systems, creating continuous analytical coverage across all critical quality parameters.

The rapid analytical results feed directly into the plant’s process control systems, enabling real-time adjustments to raw mix proportions and grinding parameters without waiting for manual laboratory turnaround. This closed-loop quality control model improves kiln stability by reducing feed chemistry variation, improves product quality by detecting deviations at the earliest possible point in the production chain, and improves energy efficiency by minimizing the rework and overcorrection that result from delayed quality feedback.

The SIRI assessment noted that EPCC’s OT and IT systems are integrated, with information flowing across the hierarchical levels of the automation pyramid. The robotic laboratory, once fully commissioned, will deepen this integration by creating a continuous, machine-generated quality data stream that can inform both process control and enterprise reporting without human intermediary steps.