Armstrong Fluid Technology has unveiled a new high performance Pressurizing Pump for the Latin American residential market that is designed to increase hydraulic pressure in homes that have dishwashers, high-flow showerheads, water heaters and other high-demand equipment.

Featuring low power consumption and a flow sensor that allows automatic activation, the new Armstrong Pressurizing Pump can supply a home with 1 to 5 bathrooms. It can be installed at the outlet of a water tank or before any supply or derivation to service.

Adaptable to both cold and hot water up to 90°C, the new pump is ideal for instantaneous heaters. It can also be used for ventilation, heating and air conditioning circulation.

The pump activates automatically when a tap is opened and turns off when the tap is closed.

About Armstrong Fluid Technology
With eight manufacturing facilities on four continents, and employees around the world, Armstrong Fluid Technology is known as an innovator in the design, engineering and manufacturing of intelligent fluid flow equipment, control solutions and optimization technologies.

In the shift toward digitalization and integration of fluid-flow systems, Armstrong leads the industry. With advanced solutions that leverage edge computing, IoT, machine learning, digital twin technology and demand-based control, Armstrong provides and protects efficiency in building mechanical systems, approaching energy optimization as a whole-building challenge and advancing the practice of full lifecycle management. Focusing on HVAC, Plumbing, Gas Transmission and Fire Safety applications, we provide energy-efficient, cost-effective solutions and performance management services to building and facility professionals around the world.

Armstrong Fluid Technology is committed to sustainability. In 2019, Armstrong signed the Net Zero Carbon Buildings Commitment, a program launched by the World Green Building Council. As a signatory to the program, Armstrong has pledged to ensure that all its offices and manufacturing facilities operate at net-zero carbon by the year 2030
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