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Installation - Mounting the Duct Cover

Models: ASU-M90ASX and ASU-E42ASX

1.Install the electrical wiring and test hood for functions prior to installing the duct covers.

2.If using hood in air recirculating mode make sure to install the air diverter plate prior to mounting the duct covers. See the manual included with the recirculating kit for more instructions.

4.Secure duct cover bracket to top of wall just below the ceiling using (2 type

D)screws provided. See Fig. 12

5. Place ducting from ceiling over the collar on top of the hood and secure using aluminum duct tape. See Fig.14

6. Insert top duct cover into bot- tom duct cover.

7. Place duct covers over hood body. Fig16 Slide duct covers

towards the wall and make sure the lip of the bottom duct cover slides under the metal lip on top of the hood body.Fig.17

8. Extend top duct cover up and secure to the duct cover bracket using (2 type C) screws. See Fig. 15

9. Secure bottom duct cover to the hood using the (2 type B) screws provided. Fig.18

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Zephyr ALA - E42ABX, ASU - M90ASX, ASU - E42ASX, AED - M90ASX, ALA - M90AWX, ALA - E42AWX Models ASU-M90ASX and ASU-E42ASX

ALA - M90ABX, ALA - E42AWX, ALA - M90AWX, ALA - E42ABX, AED - M90ASX specifications

The Zephyr ASU - M90ASX, ALA - E42ABX, ALA - M90ABX, ALA - M90AWX, AED - M90ASX represents a significant advancement in air separation technologies. Designed for efficiency and versatility, these models cater to a range of industrial applications that require reliable and cost-effective oxygen and nitrogen production.

One of the main features of the Zephyr ASU series is its modular design, allowing for easy installation and scalability. The units can be configured to meet specific production needs, making them suitable for both small-scale and large-scale operations. This flexibility is particularly advantageous for industries such as metal fabrication, chemical manufacturing, and medical applications, where gas demand can fluctuate significantly.

The M90ASX model boasts cutting-edge cryogenic technology that ensures high purity levels of separated gases. With a nitrogen purity of up to 99.999% and oxygen purity reaching 99.5%, users can expect top-quality outputs for their processes. This capacity is crucial for industries that require precise gas compositions, such as the aerospace sector, where even minor impurities can lead to critical failures.

Additionally, the Zephyr ASU systems are equipped with advanced monitoring and control systems. These smart technologies employ real-time data analytics to optimize performance and efficiency. Users can monitor production metrics remotely, allowing for proactive maintenance and minimizing downtime.

Energy efficiency is a standout attribute across the entire ASU range. These models utilize low power consumption technologies, which not only reduces operational costs but also lessens their environmental impact. This eco-friendly approach aligns with modern industrial goals of sustainability.

The ALA – E42ABX, ALA – M90ABX, and ALA – M90AWX models complement the M90ASX in terms of offering additional configurations and tailored solutions for specific operational requirements. Their shared technological framework ensures compatibility and ease of integration into existing systems.

Furthermore, robust safety features are integral to the design of the Zephyr ASU series. These include fail-safe mechanisms and pressure relief systems that ensure both operator safety and equipment reliability.

In conclusion, the Zephyr ASU – M90ASX, ALA – E42ABX, ALA – M90ABX, ALA – M90AWX, AED – M90ASX is redefining air separation technology with its state-of-the-art features and eco-conscious design. By offering high purity outputs, modular flexibility, advanced monitoring, and energy efficiency, these systems stand out as leaders in the air separation industry. They are poised to meet the diverse needs of various sectors while promoting sustainable industrial practices.