S.A. Armstrong Design Envelope Solutions
Design Envelope technology is a demand based intelligent control solution that models equipment and system behavior, monitors actual system conditions, and dynamically adjusts equipment operation to match system demand. Design Envelope technology is at the core of Armstrong’s groundbreaking advances in building performance. Design Envelope technology enables the greenest, most flexible and most cost effective fluid-flow and HVAC systems on the planet – resulting in both, lowest installed and lowest operating cost with the same equipment.
Industry Leading Capabilities
Armstrong has reinvented and redesigned our pumping solutions to include connectivity and performance management services. Design Envelope solutions provide optimal lifetime efficiency and lowest cost. No other pumping solution offers the same expanded performance range, one touch commissioning, Sensorless speed control, flow monitoring accuracy and operating notifications.
Built-in Wi-Fi capability supports remote
control, real-time monitoring and
management for lowest operating costs
Local and remote access from
any smart device
Adaptive browser-compatible software
and intuitive user interface
Optimum Lifetime Performance
Design Envelope solutions offer up to 70% energy savings compared to standard industry pumps.
A breakdown of incremental and cumulative savings looks like this:
In multi-pump installations, Armstrong’s patented Parallel Sensorless Pump Control saves up to 30% more energy over industry-standard pump staging methodologies. Now, Armstrong’s Intelligent Motor Technology, certified to IE5 standards and available on 1 to 10 hp models, delivers 3 – 12 % additional motor efficiency.
This adds up to pumping efficiency that is simply unmatched anywhere in the industry.
With the new advanced controller, offering extended intelligence and control options, Armstrong has advanced pumping technology well beyond the current standard. Control packages currently available with design envelope technology include: