Leveraging the Virtual Twin Experience for Decarbonization in the Metals Industry

By Prashanth Mysore, Senior Director for Strategic Business Development at DELMIA,

Using Virtual Twin technology, companies can develop innovative, sustainable solutions without impacting actual production. This ability to test and refine new processes in a virtual setting accelerates the adoption of greener technologies.

The metals industry, critical to global infrastructure and development, faces increasing pressure to meet stringent decarbonization targets. This is a formidable challenge given the industry’s traditionally high energy consumption and carbon emissions. However, advancements in technology, particularly the Virtual Twin Experience, are paving the way for a sustainable future. Prashanth Mysore, Senior Director for Strategic Business Development at DELMIA, takes us through Virtual Twin, it’s benefits and how it can help with decarbonization in the metals industry.

Understanding the Virtual Twin Experience

Virtual Twin Experience goes beyond digital twins and refers to the creation of a precise digital replica of a physical asset or process, enabling real-time simulation and analysis. This technology allows industry professionals to explore scenarios, optimize processes, and innovate without disrupting actual operations.

The 5 Key Benefits of Virtual Twin Experience

1. Simulation for Process Optimization

The Virtual Twin Experience allows metal industry professionals to simulate various real-world scenarios to optimize production processes. By reducing energy consumption and carbon emissions, the technology facilitates the development of innovative, sustainable solutions without impacting actual production.

2. Predictive Maintenance

Predictive maintenance powered by Virtual Twin Experience minimizes equipment downtime, thereby improving energy efficiency. By analyzing data and predicting when machinery might fail, companies can perform maintenance only when necessary, conserving resources and reducing emissions.

3. Enhanced Operational Safety

Virtual Twin Experience enhances operational safety by providing a risk-free environment for testing and training new processes. Metal industry professionals can trial different approaches and innovations in a controlled setting, ensuring safety standards are upheld while optimizing performance.

4. Collaborative Platform

The Virtual Twin Experience offers a collaborative platform for industry professionals to share knowledge and insights. This collective approach is crucial in driving decarbonization efforts across the industry, enabling stakeholders to work together towards common sustainability goals.

5. Development of Sustainable Solutions

Using Virtual Twin technology, companies can develop innovative, sustainable solutions without impacting actual production. This ability to test and refine new processes in a virtual setting accelerates the adoption of greener technologies.

Addressing the Challenges of Decarbonization

· Meeting Stringent Targets: Virtual Twin technologies simulate operations to identify and implement more efficient practices, supporting the achievement of emission reduction targets.

· Balancing Production and Sustainability: By optimizing processes, the technology helps balance increased production demands with the need for lower emissions.

· Innovative Technology Implementation: Virtual Twin Experience enables the testing and adoption of innovative, sustainable technologies without the need for costly trial-and-error in live environments.

· Operational Efficiency and Safety: The platform ensures that while the industry transitions to greener practices, operational efficiency and safety remain uncompromised.

· Managing Upfront Costs: The ability to model and simulate processes reduces the high upfront costs associated with decarbonization by identifying the most cost-effective strategies.

· Adapting to Regulations and Consumer Demands: The agility provided by the Virtual Twin Experience allows companies to quickly adapt to changing regulations and consumer demands for sustainable products.

· Emission Reduction Targets: Through AI-driven planning and optimization, virtual twins help meet emission targets while balancing production demands.

Focus Areas for Innovation

To fully utilize Virtual Twin Experience, the metals industry should focus on several key areas:

AI and Data-Driven Innovation: Harnessing AI to drive continuous innovation in process optimization and sustainability.

Modeling and Simulation: Developing detailed models that accurately reflect real-world processes and predict the outcomes of various scenarios.

AI-Driven Planning & Optimization: Leveraging AI to refine planning and optimization efforts, ensuring maximum efficiency and minimal environmental impact.

Manufacturing Operations Management and IIoT: Integrating Industrial Internet of Things (IIoT) devices with Virtual Twin technology enhances monitoring and decision-making capabilities, facilitating effective Manufacturing Operations Management (MOM).

Lean Collaboration: Encouraging collaboration between industry players to share insights and drive collective innovation. Sustainable Energy Sources: Exploring sustainable energy sources, such as hydrogen, to further reduce carbon footprints and promote environmental responsibility.

Emission Reconciliation Technology: Implementing technologies to accurately measure and reconcile emissions, ensuring compliance and transparency.

Final Thoughts

The Virtual Twin Experience represents a significant opportunity for the metals industry to achieve its decarbonization goals. By simulating processes, optimizing operations, and fostering collaboration, this technology addresses the industry’s most pressing challenges while paving the way for a sustainable future.

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