IT in Manufacturing


The digital twin advantage for infrastructure development

July 2026 IT in Manufacturing

Large infrastructure projects have a reputation. Globally, major capital works such as transport corridors, water treatment facilities and smart city backbone systems routinely exceed budget and fall behind schedule. The McKinsey Global Institute estimates that large infrastructure projects run, on average, 80% over budget and 20 months behind schedule.

Enter digital twin technology, which has matured significantly over the past three years. What began as a design visualisation tool has evolved into something considerably more consequential, a full-lifecycle asset intelligence platform.

At Schneider Electric, we are seeing this shift play out across infrastructure projects in sub-Saharan Africa, the Middle East and Europe. Unlike earlier generations of digital twins that were largely confined to design visualisation, today’s platforms create physics-based, behavioral models that remain connected to live operational data throughout the asset lifecycle.

As an example, the traditional commissioning model is linear and sequential. Design is completed, equipment is installed and then testing begins, and this is when the problems start to surface.

Virtual commissioning and the resultant digital twins invert this logic entirely. By constructing a high-fidelity digital replica of the physical asset prior to construction, engineering teams can validate control logic, test failure scenarios and identify integration conflicts before a single cable is pulled. This means testing and risk mitigation move into the pre-construction phase, where design changes can be implemented in software at a fraction of the cost of correcting issues during physical commissioning.

The digital world of IT and OT

The IT/OT convergence question sits at the heart of this capability. Edge control systems have historically operated in isolation from enterprise data layers. Here, open architectures like Schneider Electric EcoStruxure bridge that gap, delivering real-time telemetry from field devices up through to SCADA and MES layers, while feeding live operational data into the simulation environment. This creates a unified data environment in which engineering models and operational realities are continuously reconciled, enabling faster commissioning and more informed decision-making across the asset lifecycle.

The result is not merely faster commissioning, it is a persistent digital thread that continues to generate value through operations, maintenance and eventual asset renewal. By keeping the digital twin synchronised with the physical asset, operators can support predictive maintenance, optimise performance and model future upgrades long after project handover. Capital risk is also reduced, lifecycle performance improves and asset owners gain a shared data environment that supports multi-stakeholder collaboration across the project lifecycle.

Detangling the infrastructure layers

This last point deserves more attention. Infrastructure projects involve an unusually complex web of stakeholders, including government clients, engineering contractors, systems integrators, operations teams and regulatory bodies.

Misalignment between these groups is one of the primary drivers of scope creep and rework. However, virtual commissioning, when embedded within a shared simulation environment, creates a common operational reference point, and disputes over design intent become testable hypotheses, rather than contractual arguments.

For example, a smart city is not a discrete project, it is a layered, interdependent ecosystem of energy, water, mobility and communications infrastructure. Designing each of these systems in isolation, then attempting integration at commissioning, is a recipe for exactly the kind of delays the industry is trying to eliminate. The architecture required to address this demands modular, interoperable platforms built for scale from day one, not retrofitted with digital capabilities after handover.

AVEVA’s simulation tools, combined with Schneider Electric EcoStruxure’s edge intelligence layer, are designed with this complexity in mind, offering scalable digital continuity in which the twin evolves alongside the asset, rather than becoming obsolete at handover.

Digital twins will not solve the financial constraints that shape infrastructure delivery. However, they will substantially reduce the technical and operational risk that compounds those constraints into failure, and that is a meaningful contribution.


Credit(s)



Share this article:
Share via emailShare via LinkedInPrint this page

Further reading:

Africa on the edge of a digital future
Schneider Electric South Africa IT in Manufacturing
Edge computing promises lower latency, stronger reliability and real-time responsiveness across Africa, yet its rollout keeps colliding with one stubborn obstacle, power. Steven Santini explores how renewable microgrids, smart energy management and the right partnerships could turn the continent’s energy gap into its biggest edge opportunity.

Read more...
How the DCS can step off the hardware obsolescence treadmill
Schneider Electric South Africa PLCs, DCSs & Controllers
Ageing servers and unsupported operating systems are quietly eroding the stability of process plants that rely on distributed control systems. Kobus Vermeulen of Schneider Electric explains how virtualising the DCS environment can break the hardware obsolescence cycle without disrupting operations.

Read more...
3D electrical systems design workflow for electromechanical innovation
Siemens South Africa Fieldbus & Industrial Networking IT in Manufacturing
Siemens has announced new 3D electrical design capabilities within its Capital software, enabling electrical and mechanical engineers to work concurrently in a shared 3D environment to reduce late-stage design changes and accelerate time to market for complex electromechanical products.

Read more...
Optimising energy reliability for African manufacturing
Electrical Power & Protection IT in Manufacturing
Unreliable power can cost African manufacturers as much as 31% in sales. Behind-the-meter power offers manufacturers in sub-Saharan Africa control, visibility and resilience in their energy provisioning.

Read more...
ISO 42001 helps organisations prepare for the realities of AI governance
IT in Manufacturing
A security specialist at Galix explains how a new international standard helps organisations build structured governance around their use of artificial intelligence.

Read more...
Why asset level intelligence is now essential for resilient wastewater plants
Schneider Electric South Africa Maintenance, Test & Measurement, Calibration
Sub-Saharan Africa’s wastewater operators face mounting pressure to keep ageing plants running smoothly and meet tougher environmental standards, all while lacking visibility into the health of their medium-voltage (MV) drives and other critical rotating assets. Adding predictive analytics, digital twins and enterprise dashboards enables optimisation across multiple sites, ensuring every drop moves safely and efficiently through the water cycle.

Read more...
Haddy scales AI-enabled adaptive microfactories with Siemens Xcelerator
IT in Manufacturing
Additive manufacturing company Haddy has deployed the Siemens Xcelerator platform across its network of AI-enabled microfactories, connecting design, planning and robotic production through a consistent digital thread to support local, circular manufacturing at scale.

Read more...
Vertiv Rack Extreme targets high-density data centre deployments
IT in Manufacturing
Vertiv has announced the Vertiv Rack Extreme, a next-generation rack platform designed for high-performance computing and artificial intelligence applications.

Read more...
Mining’s decarbonisation journey requires putting ESG commitments into action
Schneider Electric South Africa News
Schneider Electric specialists explain how mining and heavy industry can turn environmental, social and governance commitments into measurable decarbonisation results.

Read more...
Real-time monitoring and predictive maintenance in African data centres
ACTOM Electrical Machines IT in Manufacturing
Running a data centre in Africa brings many challenges. Traditional maintenance strategies struggle to keep up with these realities. Predictive maintenance offers a different approach.

Read more...









While every effort has been made to ensure the accuracy of the information contained herein, the publisher and its agents cannot be held responsible for any errors contained, or any loss incurred as a result. Articles published do not necessarily reflect the views of the publishers. The editor reserves the right to alter or cut copy. Articles submitted are deemed to have been cleared for publication. Advertisements and company contact details are published as provided by the advertiser. Technews Publishing (Pty) Ltd cannot be held responsible for the accuracy or veracity of supplied material.




© Technews Publishing (Pty) Ltd | All Rights Reserved