For energy-intensive life sciences facilities, understanding and optimizing consumption patterns is paramount for both sustainability and operational cost control. We employ advanced Energy and Hydraulic Modeling to predict and simulate building performance. Doing so, we enable data-driven design decisions that enhance efficiency, reduce environmental impact, and lower utility expenses.
Our Energy Modeling capabilities assess how building design, orientation, envelope, and HVAC systems interact to consume energy, identifying opportunities for significant savings before construction even begins. This is vital for life sciences, specifically within lab and cGMP manufacturing environments, which can have exceptionally high energy demands.
Similarly, our Hydraulic Modeling expertise analyzes fluid flow and pressure in critical utility systems—like purified water (PW/WFI) loops, process gases, and waste streams—ensuring optimal design for consistent delivery, minimizing pressure drops, and preventing costly inefficiencies.
Our expertise includes the use of Digital Twins/PIPE-FLO and other leading technologies such as PharmaWater Pro, a powerful, industry-vetted, comprehensive design and analysis platform for pharmaceutical water systems developed by our own Chief Process Engineer, Steve Hall. These tools provide real-time performance data. We can help you run complex simulations that optimize system design and predict system issues so you can make informed decisions and smart CapEx/OpEx investments.
Facilities that utilize advanced modeling in their design phase can achieve up to 30% higher energy efficiency compared to those that don’t. By leveraging these powerful analytical tools, we design facilities that are not only high-performing but also meet ambitious sustainability targets and provide long-term cost benefits for your life sciences operations.
