VERTICAL INSTALLATION

STEP 1. Check the instructions for required clearances (air spaces) to combustibles when passing through ceilings, walls, roofs, enclosures, attic rafters , or other nearby combustible surfaces. Do not pack air spaces with insulation.

STEP 2. Set the gas appliance in the desired location. Drop a plumb bob down from the ceiling to the position of the appliance flue exit, and mark the location where the vent will penetrate the ceiling. Drill a small hole at this point. Next, drop a plumb bob from the roof to the hole previously drilled in the ceiling, mark the spot where the vent will penetrate the roof. Determine if ceiling joists, roof rafters, or other framing will obstruct the venting system. You may wish to relocate the appliance, or to offset, to avoid cutting load bearing members.

STEP 3. To install the Round Support Box/Wall Thimble in a flat ceiling, cut a 10- inch square hole in the ceiling, centered in the hole drilled in Step 2. Frame the hole as shown in FIG-16.

STEP 4. Assemble the desired lengths of black pipe and elbows necessary to reach from the appliance adapter up through the Round Support Box. Insure that all pipe and elbow connections are in their fully twist-locked position.

STEP 5. Cut hole in the roof centered on the small hole placed in the roof from Step 2. The hole should be of sufficient size to meet minimum requirements for Clearance to Combustibles, as specified. Continue to assemble lengths of pipe and elbows necessary to reach from the ceiling Support Box up through the roofline. Galvanized pipe and elbows may be utilized in the attic, as well as above the roofline. The galvanized finish is desirable above the roofline, due to the higher corrosion resistance.

STEP 6. Once the pipe sections have been joined, and run up through the hole in he roof, slip an elbow strap (Part-989) over the exposed sections, bend the support straps outwards, and push the Elbow Strap down to the roof level, as shown in FIG 17. Tighten the clamp around the Pipe section. Use a level to make sure the pipe is truly vertical. With roofing nails, secure the support straps to the roof. Seal the nails holes heads with non-hardening mastic. Trim the excess length of the support straps that extend out beyond the edge of the flashing.

STEP 7. Slip the flashing over the pipe section protruding through the roof. Secure the base of the flashing to the roof with roofing nails. Use a non-hardening sealant between the uphill edge of the flashing and the roof. Insure the roofing material overlaps the top edge of the flashing as shown in FIG 17. Verify that you have at least the minimum clearance to combustibles at the roofline.

STEP 8. Continue to add pipe sections until the height of the vent cap meets the minimum code requirements. FIG 22. Note that for steep roof pitches, the vent height must be increased. In high wind conditions, nearby trees, adjoining roof lines, steep pitched roofs, and other similar factors can result in poor draft, or down drafting. In these cases, increasing the vent height may solve the problem.

STEP 9. Slip the Storm Collar over the pipe, and push it down to the top of the roof flashing as shown in FIG 17. Use the non- hardening sealant around the joint between the pipe and the Storm Collar.

STEP 10. Twist lock the vent cap.

FIG-16

FIG-17

9

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Enviro EG 28 owner manual Vertical Installation
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EG 28 specifications

The Enviro EG 28 is an innovative environmental solution designed for efficient waste management and recycling. This versatile equipment is engineered to handle a variety of materials, making it an essential tool for waste processing facilities, recycling centers, and industrial applications. Its robust design and advanced technologies ensure optimal performance and reliability.

One of the main features of the Enviro EG 28 is its high-capacity processing capability. The system is capable of handling large volumes of waste, which increases operational efficiency and reduces the frequency of emptying and maintenance. This is particularly beneficial in high-demand environments where downtime must be minimized. The Enviro EG 28 also incorporates advanced sorting technology that allows it to differentiate between various materials, optimizing the recycling process and improving the quality of the end products.

The Enviro EG 28 utilizes cutting-edge sensors and artificial intelligence to enhance its operation. These smart technologies enable the system to automatically adjust to different types and sizes of waste materials, ensuring efficient sorting and processing. This adaptability is crucial in today’s ever-changing waste landscape, where contamination and mixed materials can pose significant challenges.

Another significant characteristic of the Enviro EG 28 is its eco-friendly design. It operates with reduced energy consumption compared to traditional waste management systems, reflecting a commitment to sustainability. The efficient use of energy not only lowers operational costs but also minimizes the environmental impact of waste processing activities.

Durability is a key attribute of the Enviro EG 28. Constructed from high-quality materials, it withstands the rigors of a demanding work environment. Its maintenance is straightforward, ensuring that organizations can keep operational disruptions to a minimum.

In summary, the Enviro EG 28 stands out in the waste management sector due to its high capacity, advanced sorting technology, smart sensors, energy efficiency, and durable construction. It represents a significant advancement toward more sustainable waste management practices, making it a valuable asset for any organization committed to environmental responsibility and operational excellence. As waste management continues to evolve, the Enviro EG 28 is poised to play a pivotal role in shaping the future of recycling and waste processing efficiency.
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