WHO WE ARE
WHO WE ARE
About Dynamet
About Dynamet
Dynamet is a specialised process modelling and analytics consultancy at the intersection of physics, data, and process engineering. We collaborate with clients to create bespoke, project-specific models that reflect real processes. Our approach embeds knowledge so that it is preserved and applied across every stage of a project.
Dynamet is a specialised process modelling and analytics consultancy at the intersection of physics, data, and process engineering. We collaborate with clients to create bespoke, project-specific models that reflect real processes. Our approach embeds knowledge so that it is preserved and applied across every stage of a project.
WHAT DRIVES US
WHAT DRIVES US
WHAT DRIVES US
Our Mission & Purpose
Our Mission & Purpose
Our Mission & Purpose
At Dynamet, we are problem solvers. We help teams navigate complex industrial challenges by reducing technical and financial risk, and accelerating innovation. Using physics, measured data, and bespoke modelling, we develop tools that support confident, practical decisions throughout the project lifecycle.
At Dynamet, we are problem solvers. We help teams navigate complex industrial challenges by reducing technical and financial risk, and accelerating innovation. Using physics, measured data, and bespoke modelling, we develop tools that support confident, practical decisions throughout the project lifecycle.
At Dynamet, we are problem solvers. We help teams navigate complex industrial challenges by reducing technical and financial risk, and accelerating innovation. Using physics, measured data, and bespoke modelling, we develop tools that support confident, practical decisions throughout the project lifecycle.
HOW WE MODEL
HOW WE MODEL
Technical Capabilities
Technical Capabilities
Dynamet’s core technical capabilities underpin our process modelling and analytics work across design, scale up, and operations.
Dynamet’s core technical capabilities underpin our process modelling and analytics work across design, scale up, and operations.
Data Integration
Consolidate lab, pilot, and operational data into a single framework. Models can be continuously calibrated to evolve with the process, converting fragmented data into a reliable, living digital asset.
Dynamic Modelling
Track time-dependent process behaviour across batch, semi-batch, and continuous operations. High-fidelity models capture phenomena beyond steady-state simulations, and scale seamlessly from individual units to fully integrated plant systems.
Hybrid Modelling
Combine physics and data-driven learning to deliver robust predictions, even with sparse data. These hybrid models provide insight into complex process behaviour without requiring exhaustive mechanistic detail.
Flexible, Client-Focused Modelling
Develop solutions collaboratively with clients, delivered as consultant-led studies or secure standalone or web tools. Embed expertise, preserve operational knowledge, and create assets that remain usable without in-house modelling capability.
Data Integration
Consolidate lab, pilot, and operational data into a single framework. Models can be continuously calibrated to evolve with the process, converting fragmented data into a reliable, living digital asset.
Hybrid Modelling
Combine physics and data-driven learning to deliver robust predictions, even with sparse data. These hybrid models provide insight into complex process behaviour without requiring exhaustive mechanistic detail.
Dynamic Modelling
Track time-dependent process behaviour across batch, semi-batch, and continuous operations. High-fidelity models capture phenomena beyond steady-state simulations, and scale seamlessly from individual units to fully integrated plant systems.
Flexible, Client-Focused Modelling
Develop solutions collaboratively with clients, delivered as consultant-led studies or secure standalone or web tools. Embed expertise, preserve operational knowledge, and create assets that remain usable without in-house modelling capability.
WHAT SETS US APART
WHAT SETS US APART
Our Approach
Our Approach
What Dynamet is…
What Dynamet is…
Independent Consultants
Independent Consultants
We provide unbiased, expert guidance and work across diverse industry-standard tools to meet each project’s needs.
We provide unbiased, expert guidance and work across diverse industry-standard tools to meet each project’s needs.
Work Collaboratively with Client
Work Collaboratively with Client
We work closely with client teams to align with project goals, embed operational knowledge, and co-develop practical solutions.
We work closely with client teams to align with project goals, embed operational knowledge, and co-develop practical solutions.
Bespoke and Flexible
Bespoke and Flexible
We adapt our frameworks, tools, and workflows to fit the client’s plant configuration, data environment, and technical objectives.
We adapt our frameworks, tools, and workflows to fit the client’s plant configuration, data environment, and technical objectives.
What Dynamet is not…
What Dynamet is not…
Internal Team
Internal Team
We don’t replace existing teams, we complement them. This ensures that internal knowledge is captured and retained within the client company.
We don’t replace existing teams, we complement them. This ensures that internal knowledge is captured and retained within the client company.
Software Vendors
Software Vendors
We focus on bespoke models, not off-the-shelf software.
We focus on bespoke models, not off-the-shelf software.
Generic Solution Providers
Generic Solution Providers
Every model is purpose-built to address the specific project challenges.
Every model is purpose-built to address the specific project challenges.
APPLICATION AREAS
APPLICATION AREAS
Industry Application
Industry Application
At Dynamet, we apply our process modelling and analytics capabilities across the following industries.
At Dynamet, we apply our process modelling and analytics capabilities across the following industries.
Aqueous chemical processes
Optimise integrated plant sections, including recycles and control loops, to enable virtual optimisation before plant implementation.
Mining and mineral processing
Model particle-level behaviour, including size and density distribution, to support improved material handling and separation performance.
Extractive metallurgy
Optimise leaching, precipitation, crystallisation, and electrowinning with hybrid models that stabilise performance and improve recovery.
Hydrogen production
Time-dependent electrolysis and grid-integration models optimise renewable energy use and accurately estimate Levelised Cost of Hydrogen (LCOH).
Energy Systems and Integrated Process–Power Operations
Coupled models of process units, power generation, and energy storage evaluate system dynamics, grid interaction, and renewable integration, to support efficient, low-carbon operation, and strategic energy transition planning.
Carbon capture
Models spanning molecular to plant scale support technology selection, pilot validation, and scale-up, to enable confident assessment of performance and operational feasibility.
Aqueous chemical processes
Optimise integrated plant sections, including recycles and control loops, to enable virtual optimisation before plant implementation.
Mining and mineral processing
Model particle-level behaviour, including size and density distribution, to support improved material handling and separation performance.
Extractive metallurgy
Optimise leaching, precipitation, crystallisation, and electrowinning with hybrid models that stabilise performance and improve recovery.
Hydrogen production
Time-dependent electrolysis and grid-integration models optimise renewable energy use and accurately estimate Levelised Cost of Hydrogen (LCOH).
Energy Systems and Integrated Process–Power Operations
Coupled models of process units, power generation, and energy storage evaluate system dynamics, grid interaction, and renewable integration, to support efficient, low-carbon operation, and strategic energy transition planning.
Carbon capture
Models spanning molecular to plant scale support technology selection, pilot validation, and scale-up, to enable confident assessment of performance and operational feasibility.
Aqueous chemical processes
Optimise integrated plant sections, including recycles and control loops, to enable virtual optimisation before plant implementation.
Mining and mineral processing
Model particle-level behaviour, including size and density distribution, to support improved material handling and separation performance.
Extractive metallurgy
Optimise leaching, precipitation, crystallisation, and electrowinning with hybrid models that stabilise performance and improve recovery.
Hydrogen production
Time-dependent electrolysis and grid-integration models optimise renewable energy use and accurately estimate Levelised Cost of Hydrogen (LCOH).
Energy Systems and Integrated Process–Power Operations
Coupled models of process units, power generation, and energy storage evaluate system dynamics, grid interaction, and renewable integration, to support efficient, low-carbon operation, and strategic energy transition planning.
Carbon capture
Models spanning molecular to plant scale support technology selection, pilot validation, and scale-up, to enable confident assessment of performance and operational feasibility.
Aqueous chemical processes
Optimise integrated plant sections, including recycles and control loops, to enable virtual optimisation before plant implementation.
Mining and mineral processing
Model particle-level behaviour, including size and density distribution, to support improved material handling and separation performance.
Extractive metallurgy
Optimise leaching, precipitation, crystallisation, and electrowinning with hybrid models that stabilise performance and improve recovery.
Hydrogen production
Time-dependent electrolysis and grid-integration models optimise renewable energy use and accurately estimate Levelised Cost of Hydrogen (LCOH).
Energy Systems and Integrated Process–Power Operations
Coupled models of process units, power generation, and energy storage evaluate system dynamics, grid interaction, and renewable integration, to support efficient, low-carbon operation, and strategic energy transition planning.
Carbon capture
Models spanning molecular to plant scale support technology selection, pilot validation, and scale-up, to enable confident assessment of performance and operational feasibility.
KEY TECHNICAL TEAM
KEY TECHNICAL TEAM
Meet The Team
Meet The Team
Dynamet brings together more than 100 years of combined experience in process modelling and software development. Our team includes specialists in process engineering, electrical engineering, mechanical engineering, and scientific software development, with deep experience across research, industry, and deployment. This depth of experience underpins Dynamet’s credibility as a trusted process modelling and analytics partner.
Dynamet brings together more than 100 years of combined experience in process modelling and software development. Our team includes specialists in process engineering, electrical engineering, mechanical engineering, and scientific software development, with deep experience across research, industry, and deployment. This depth of experience underpins Dynamet’s credibility as a trusted process modelling and analytics partner.
© 2026 Dynamet Insights
© 2026 Dynamet Insights