COMING SOON BIM DRAWINGS AND PERFORMANCE DATA

Model – BEST Cube

Saving Energy by Moving Air with Superior Acoustics in a Compact Footprint  While Offering the Highest ROI

Applications: advanced research facilities, airports, automotive, cleanrooms, data centers, education/institutional, healthcare,  hi rise, low rise, medium rise, mission critical facilities, parking garages, pharma, stadiums,  retrofit, underfloor/chilled beam

Sizes: 5000 – 150,000 cfm

The BEST Cube is an advanced aero-acoustical technology when combined with air distribution systems result in ultimate quiet operation of an NC-35 or better without sound attenuators in the space and ultimate control of air delivery at the highest energy efficiency and reduced compact floor space.

The unique and innovative design of the BEST cube produces results that are superior to those achieved by the application of conventional systems, reducing noise levels, internal pressure drops and energy.

Air leaves the coils at low velocities and is gradually accelerated as it passes through the silencing section without experiencing the dynamic losses found in conventional systems. This improves fluid flow, controls turbulence and reduces HP. The aero-acoustical fan conical discharge minimizes fluid flow separation. This reduces noise generation and virtually eliminates the impact loss normally experienced from the reduction in velocity of the air discharging from the annulus of an axial fan wheel into the air distribution system.

The BEST Cube is ideally suited for many applications. The pressure characteristics and flow range offer flexibility far beyond centrifugal fans. The VFD provides the ability to match the optimum operating RPM, to the peak load and off peak load, guarantees quiet and extremely efficient performance.

COMING SOON BIM DRAWINGS AND PERFORMANCE DATA

Model – Space Gain 5000 – 150,000 cfm

Applications: advanced research facilities, airports, automotive, cleanrooms, data centers, education/institutional, healthcare,  hi rise, low rise, medium rise, mission critical facilities, parking garages, pharma, stadiums,  retrofit, underfloor/chilled beam

The BEST Cube is an advanced aero-acoustical technology when combined with air distribution systems result in ultimate quiet operation of an NC-35 in the space and ultimate control of air delivery at the highest energy efficiency and reduced compact floor space.

The unique and innovative design of the BEST cube produces results that are superior to those achieved by the application of conventional systems, reducing noise levels, internal pressure drops and energy.

COMING SOON BIM DRAWINGS AND PERFORMANCE DATA

Model – Radiax

Sizes: 5000 – 400,000 cfm
Applications: advanced research facilities, airports, automotive, cleanrooms, data centers, education/institutional, healthcare,  hi rise, low rise, medium rise, mission critical facilities, parking garages, pharma, stadiums,  retrofit, underfloor/chilled beam The Radiax product line is an advanced aero-acoustical technology when combined with air distribution systems result in ultimate quiet operation of an NC-35 in the space and ultimate control of air delivery at the highest energy efficiency and reduced compact floor space.

The unique and innovative design of the Radiax produces results that are superior to those achieved by the application of conventional systems, reducing noise levels, internal pressure drops and energy. The radiax product line is applied where massive amounts of air is required be distributed with low sound levels and compact space.

COMING SOON BIM DRAWINGS AND PERFORMANCE DATA

Model – Exhaust Fan Tower

The unique and innovative design of the Exhaust fan tower achieves results that are superior to those achieved by the application of conventional systems, reducing noise levels, internal pressure drops and energy. The Exhaust Fan Tower product line is applied where massive amounts of air are required be exhausted with low sound levels and low energy ratings.

Typical fan efficiencies operate at 84% efficient
With approximately 94% re-gain of velocity pressure.

Applications: advanced research facilities, airports, automotive, cleanrooms, data centers, education/institutional, healthcare,  hi rise, low rise, medium rise, mission critical facilities, parking garages, pharma, stadiums,  retrofit, underfloor/chilled beam

COMING SOON BIM DRAWINGS AND PERFORMANCE DATA

Model – Air Columns

The compact and innovative design of the fan tower achieves results that are superior to those achieved by the application of conventional systems, reducing noise levels, internal pressure drops and energy. The filters and coils are located above the fan tower and can be used in various discharge configurations – down discharge, up discharge and horizontal discharge. The coils/filters can be configured as 4 sided, 3 sided, 2 sided and single sided. The Exhaust Fan Tower product line is extremely quite and energy efficient. Therefore no enclosure is required for the fan tower section thus saving valuable floor space.

Typical fan efficiencies operate at 84% efficient. With approximately 90% re-gain of velocity pressure.

The aero-acoustical fan conical discharge minimizes fluid flow separation. This improves fluid flow, controls turbulence and reduces HP. This reduces noise generation and virtually eliminates the impact loss normally experienced from the reduction in velocity of the air discharging from the annulus of an axial fan wheel into the air distribution system. The discharge labyrinth can be configured at various angles depending on the application.

Makes this product line ideal for sensible cooling applications including data centers and raised floor applications.

Applications: advanced research facilities, airports, automotive, cleanrooms, data centers, education/institutional, healthcare, low rise, mission critical facilities, parking garages, pharma, stadiums,  retrofit, underfloor/chilled beam

COMING SOON BIM DRAWINGS AND PERFORMANCE DATA

Model – ART Aero-acoustic transitions and High performance riser systems

The ART (Aero-acoustic re-gain transition) is integrated into various product portfolios and system designs based on the applications.

Art’s and riser systems are designed with our proprietary software program using our advanced computational fluid dynamic equations. ART’s recover the energy and acoustically enhance systems by improving fluid flow and controlling turbulence. This reduces noise generation and virtually eliminates the impact loss normally experienced from the reduction in velocity of the air discharging at high velocities at the air distribution system without experiencing the dynamic losses found in conventional systems.

Model – ZCU X

16 inch high conductive cooling unit capable of servicing 5 zones simultaneously. Additional information coming.