What we do
We focus on understanding material behaviours, properties, and distinct characteristics. This precision is essential for accurate system design and optimisation. Using advanced instruments and proprietary software, we can accurately measure and adjust microscopic parameters such as sliding friction and cohesion. This rigorous approach ensures our simulations match real-world outcomes. EvoPhase’s expertise in applying its unique methodologies and facilities will pioneer industries’ experience of the next phase in design evolution, rooted in authentic data and driven by comprehensive material knowledge.
EvoPhase pioneer the forefront of creating computational models that most accurately mirror real-world industrial systems. Our expert capabilities span small-scale representative model systems to handling large simulations with millions of particles, utilising advanced algorithms and cutting-edge AI. Our world-leading knowledge on the application of techniques including Computational Fluid Dynamics and the Discrete Element Method ensures our models are not just close, but exact. For industries aiming for the next-level in design precision, EvoPhase is the unmatched technical partner to drive that evolution.
Precision in R&D validation is crucial. While we utilise a variety of tools, our globally unique Positron Emission Particle Tracking technique (PEPT) stands out for its 3D imaging capabilities. It enables us to capture intricate flow behaviours, from multiphase fluids in tanks to the movement of granular materials, providing high-resolution insights even in opaque settings. Our holistic approach ensures that PEPT experimental data is complemented and aligned with other validation methods. In industrial applications, validation isn’t just a step—it’s foundational. With a diverse toolkit, EvoPhase brings unmatched validation precision, setting the new standard in accuracy that industry leaders seek.
We apply our extensive suite of algorithms and methodologies to significantly enhance the optimisation of process conditions, essential for maximising system performance. We adjust and optimise critical variables, including temperature, pressure, and flow rates, to meet exact specifications. Supported by advanced analytics and AI, our methods ensure that processes are fine-tuned to operate at peak efficiency. This holistic approach leads to tangible efficiency gains and consistent product quality. EvoPhase’s expertise is applied so that industries benefit from truly optimised process conditions.
In geometric design optimisation, we navigate multivariable challenges with precision. Starting from a digital system model, we establish clear targets such as achieving a 20% energy reduction. Advanced evolutionary algorithms and AI underpin our rapid simulations, significantly shortening design timelines from years to weeks or even days. Moreover, we excel in transitioning between lab-scale and industrial dimensions, ensuring consistent performance across scales. The result is that designs will be quicker, adaptable, and safer; whether you require innovation in optimising a new process system, or greatly improving your existing one. Our goal is for you to experience a transformative approach to design evolution with EvoPhase setting the benchmark in modern R&D.
At EvoPhase, we emphasise predictive models anchored in solid simulations and real-world data. With our specialised software, we craft mathematical equations from comprehensive parameter analysis. These models accurately reflect material behaviours and ensure consistent performance across different scales. By utilising advanced analytics and AI, we pinpoint key patterns and correlations. With EvoPhase’s guidance, industries transition seamlessly from initial prototypes to final industry-standard systems, all backed by reliable mathematical insights.