Project Information

This EPC contract involves the development of the MOD Water Intake and Water Treatment Plant (WTP) at the Zubair Oil Field, designed to supply high-quality treated water. The initial capacity is 300 KBWPD, with future expansion plans up to 600 KBWPD. The project includes a comprehensive pipeline system to transport treated water efficiently.

The Project aims to design, construct, operate and maintenance the MOD Water Treatment Project as a whole. 

The process begins at the Main Outfall Drain River (MOD), where water is drawn through an intake system with pumps on a pontoon. The raw water is then transferred to the WTP, where it undergoes multiple advanced treatment processes. Once treated, the water is pumped from storage tanks through a dedicated 800mm GRP pipeline to a valve station 18 km away. From there, it is distributed through two separate HDPE pipelines:

• A 600mm HDPE pipeline (approximately 1 km) leading to the North Degassing Station (NDGS).

• A 500mm HDPE pipeline (approximately 7 km) extending to HAMMAR IPF.Project

Project Components:

• Water Intake.

• Water Treatment Plant.

• GRP Pipeline

• Valve Station

• HDPE Pipeline

• Overhead Transmission Line (OHTL) – Power Supply

WTP main Components:

• Drum Screening.

• Grit Removal.

• Water Clarification.

• Ultra Filtration (UF)

• Nano Filtration (NF)

• De-Oxygenation. 

• Stored in Storage Tanks

Project Duration:

Until 2026 + 24 months operation.

Current Status:

The project is under construction, with ongoing installation of key equipment and infrastructure development to ensure seamless operation upon completion 

Construction Excellence:

Our commitment to construction excellence is reflected in every phase of development, ensuring the highest standards of quality, efficiency, and innovation. With state-of-the-art engineering solutions, the project adheres to international safety and environmental regulations, delivering a sustainable and high-performance water infrastructure. Advanced engineering and design techniques optimize efficiency and long-term reliability, while rigorous quality control measures guarantee precision in execution.