SCADA & Instrumentation Design

Overview

SCADA & Instrumentation Design plays a crucial role in engineering projects by enhancing system integration and ensuring precise control and monitoring across various applications, including wastewater treatment plants, potable water distribution networks, and desalination systems. Through detailed system mapping and process analysis, this service facilitates improved design clarity and early-stage planning, which are essential for reducing operational errors and ensuring safety and control support. By incorporating SCADA system design and process instrumentation design, stakeholders benefit from enhanced flow mapping and treatment stages visualization, leading to effective communication and coordination. This interdisciplinary alignment is vital for projects such as industrial water reuse networks and stormwater drainage systems, where remote monitoring and automation are key to operational efficiency.

Scope of Work

  • Industrial Water Reuse Network Design
  • Review existing SCADA configurations for integration with new systems.
  • Define instrumentation requirements for network monitoring.
  • Prepare control strategies for automated system operations.
  • Wastewater Treatment Plant
  • Review SCADA system architecture for process control.
  • Define instrumentation points for process monitoring.
  • Outline control logic for treatment process automation.
  • Force Main Design
  • Illustrate SCADA integration points for remote monitoring.
  • Define instrumentation needs for pressure and flow monitoring.
  • Prepare control sequences for pump operations.
  • Potable Water Distribution Network Design
  • Review SCADA system requirements for network management.
  • Define instrumentation locations for water quality monitoring.
  • Outline remote monitoring strategies for distribution efficiency.
  • Well Water/Brakish Desalination Plant (BWRO System Design)
  • Review SCADA system setup for desalination process control.
  • Define instrumentation points for water quality and flow monitoring.
  • Prepare control strategies for membrane operations.
  • Electrical Distribution Network Design
  • Review SCADA system requirements for network reliability.
  • Define instrumentation for voltage and current monitoring.
  • Outline control logic for load management.
  • Strategic Water Storage Design
  • Illustrate SCADA integration for storage level monitoring.
  • Define instrumentation for pressure and flow control.
  • Prepare control sequences for automated filling and discharge.
  • Industrial Wastewater Treatment Plant Design
  • Review SCADA system architecture for process efficiency.
  • Define instrumentation points for pollutant monitoring.
  • Outline control strategies for treatment process optimization.
  • Compact Wastewater Treatment Plant Design
  • Illustrate SCADA integration for compact system monitoring.
  • Define instrumentation for process efficiency tracking.
  • Prepare control sequences for automated treatment cycles.
  • Stormwater Drainage Network Design
  • Review SCADA system requirements for flood monitoring.
  • Define instrumentation for flow and level monitoring.
  • Outline control strategies for drainage system operations.
  • Drinking Water Storage Tank and Pumping Station Design
  • Illustrate SCADA integration for tank level monitoring.
  • Define instrumentation for pump control and water quality.
  • Prepare control sequences for efficient water distribution.

Compliance with Regulatory Standards

The SCADA & Instrumentation Design is typically submitted as part of the overall design package for infrastructure and water treatment projects. The service has been successfully included in official submittals reviewed and approved by major regulatory and governmental entities across the region, including:

SWCC

NWC

SWA

NOPWASD

HCWW

Nama

This service has been developed to comply with the specific documentation formats, technical expectations, and regulatory frameworks defined by these authorities. Alignment with such standards ensures smooth review cycles, avoids rejections or delays, and facilitates full integration within the broader permitting and implementation process.

Deliverables

  • SCADA System Architecture Diagram: A high-level schematic illustrating the proposed SCADA system layout, including key components and communication pathways.
  • Preliminary Instrumentation List: A draft list of required instrumentation, specifying types and general locations within the system.
  • Functional Specification Document: An outline of the intended functionalities and performance criteria for the SCADA system and instrumentation.
  • Detailed SCADA Network Diagram: Comprehensive diagrams showing detailed network configurations, including IP addressing and communication protocols.
  • Instrumentation Data Sheets: Detailed specifications for each instrument, including technical parameters and installation requirements.
  • Control Panel Layouts: Detailed drawings of control panel designs, including component placement and wiring schematics.

Note: Deliverables may vary depending on the specific project type, such as water treatment or distribution systems.

Related Projects

Wadeaa Desalination plant – BWRO

View Project

Sharoura Desalination plant – BWRO

View Project

Khaiyala Compact Wastewater Treatment Plant In Jeddah

View Project

Sewerage Networks In West Safwa, Al-Fayha Neighborhood In Sihat, The South Al-Majidiyah Plan Area

View Project

Pumping Station, Force Main, Sewer Collection Network In King Fahd Area in Jubail

View Project

Wastewater Treatment Plants in Hayer and Heet at Riyadh

View Project

Ensure compliance. Enhance clarity. Execute with confidence.

Get in Touch

Discuss Your Project

Share requirements and timelines. We’ll reply with a proposed scope, duration, and deliverables bundle.
  • 48–72h response with scope draft
  • Optional sample PFD page on request
  • Alignment with SWCC / NWC / HCWW formats

By submitting, you agree to be contacted about your inquiry.