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دراسة 05 · Project ManagementRail · Environmental RiskAbu Dhabi, UAE2024

From Reactive to Predictive: Sand Mitigation for Abu Dhabi Heavy-Haul Rail

Shifted a desert rail operation from reactive sand clearance to a predictive, intelligence-led mitigation model — near-eliminating sand-related delays and forming the basis for Core's Environmental Risk & Sand Mitigation System product.

Client · Heavy-haul rail operator · Sand Mitigation Committee
From Reactive to Predictive: Sand Mitigation for Abu Dhabi Heavy-Haul Rail
التحدي

During early operations of a heavy-haul railway in Abu Dhabi, recurring sandstorms posed a significant threat to operational reliability and safety. Sand accumulation on the track caused delays, buried infrastructure, and forced high-cost reactive maintenance interventions. Early approaches focused on removing sand after it reached the railway — inefficient, costly, and operationally disruptive.

الإجراء

As Co-Chair of the Sand Mitigation Committee, led a strategic shift from reactive clearance to a predictive, system-based approach. Installed local weather monitoring stations and combined local with external forecasting data to build a forward-looking risk model — giving 5–10 day visibility of wind conditions and identifying high-risk areas before impact. Designed location-specific mitigation (fencing, diversions, controlled accumulation zones) based on sand type, wind direction and terrain. Realigned the maintenance strategy around pre-positioning of resources ahead of sand events.

النتيجة

Near-elimination of sand-related delays and operational disruption. Significant reduction in reactive maintenance and associated cost. Improved safety through reduced exposure to extreme environmental conditions. Enhanced planning accuracy and resource deployment. Established a fully preventative, intelligence-led maintenance model — the foundation for Core's Environmental Risk & Sand Mitigation System product.

Problem Reframing & Environmental Analysis

The engagement challenged the conventional approach of improving sand removal capability and recognised that any intervention after sand reached the railway was structurally too late. Research focused on sand movement patterns, wind behaviour and seasonal trends, with local weather monitoring stations installed to capture real-time environmental data at specific track locations.

Predictive Risk Modelling

A forward-looking risk model combined local weather station data with external forecasting sources, enabling:

  • 5–10 day visibility of wind conditions.
  • Identification of high-risk areas before impact.
  • A proactive alert system triggering early intervention.

Engineering & Mitigation Design

Location-specific mitigation solutions were designed around sand type, wind direction and terrain — including fencing and barriers to slow, divert and trap sand, and controlled sand accumulation zones to improve removal efficiency when clearance was needed.

Operational Integration

Maintenance strategy was redesigned around predictive insight — pre-positioning of resources ahead of sand events, targeted interventions in high-risk areas, and a reduction of reactive, emergency-based work.

Strategic Value

Demonstrates the ability to shift operations from reactive to predictive systems, with strong integration of environmental data, engineering, and operational planning. Delivered scalable, long-term improvement in reliability and performance — and the operational experience that directly underpins Core's Environmental Risk & Sand Mitigation System product.

ابدأ الحوار

سواء كان أداء، جاهزية
تدقيق، أو أنظمة جديدة —
كور تستطيع دعم عملياتك.