Gas Fireplace Insert

Optional Accessories

Ceramic Refractory

Optional for A125 and A132

Model Description

RHE25CR

Ceramic Firebox Liner

1.Remove front glass (Refer to Glass Frame Removal section)

2.Remove logs from unit.

Logs may be hot!

3. Remove refractory from packaging.

Refractory are fragile and must be handled with care. Where at all possible, two hands should be used when handling.

4.Take center refractory and tilt so bottom edge slides into support angle in back of fireplace.

5.Now press center refractory to back side of fireplace and hold in place.

6.Take left or right refractory and align it so leading edge faces outward. Place refractory in fireplace side and slide it back to support center refractory.

7.Install metallic piece in the leading edge (A132 only).

8.Repeat Step 6 and 7 for remaining side refractory.

When side refractory is installed correctly, the center refractory will be supported by the side refractory.

9.Fasten top tab supports against refractory to hold sides in place.

Left Side

Center

Right Side

Leading

 

Leading

Edge

 

Edge

 

Bottom Edge

FP1278

 

 

Fig. 24 Ceramic refractory.

Zero Clearance Kit

For installations other than in existing woodburning fire- places such as new construction or renovation projects, a Zero Clearance Kit must be used. The HEZC enables these inserts to be installed in combustible environ- ments. It is recommended that an Air Kit (AKZC) be installed whenever using a Zero Clearance Kit. Con- sideration must be given to the dimensions of the Zero Clearance Kit and the requirements of the Air Kit when planning out the installation.

Follow the instructions supplied with the Zero Clearance Kit carefully for proper installation.

Remote Controls

Optional remote control units are available to control different functions of the appliance.

Model

Function(s) Controlled

RC1

ON/OFF

RC2

ON/OFF and Temperature

IMTFK

Wall mounted thermostat control

A Trim Options for A125

A1 RHE25SSP, RHE25LP

Trim Assembly

RHE25SSP

1.Install trim channels (left and right sides). Use two screws to assemble each piece.

2.Slide on the trim top channel and fasten it from the back side.

3.Install the trim top deflector using two screws.

4.Remove ALL plastic protective covering from brass trim.

Side View

Trim Top Deflector

Trim Frame Top Section

FP1261a

Fig. 25 Trim top deflector.

HE25LP

1.To install the kit you do not have to remove any piece of brass, you just add the external pieces.

2.Remove the frame trim from the unit if it is already installed.

3.Install trim channels (left and right sides) by remov- ing the two screws that hold the side brass trim and put them back to hold both parts.

4.Slide on the trim top channel and fasten it from the back side.

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CFM Corporation A125, A132 manual Optional Accessories

A132, A125 specifications

CFM Corporation, a renowned leader in the aviation industry, has made significant strides with its advanced jet engines, particularly the CFM56 series, which includes models like the A132 and A125. These engines are propelling the next generation of commercial aviation with their focus on fuel efficiency, reliability, and reduced emissions.

The CFM A132 and A125 engines are specifically designed for narrow-body aircraft, making them ideal for short to medium-haul flights. One of the standout features of the A132 is its exceptional thrust performance, providing operators with a thrust range that ensures versatility in various flight conditions. The A125, while slightly lower in thrust output, boasts impressive fuel efficiency, contributing to lower operational costs for airlines.

Both models utilize advanced materials and manufacturing techniques that enhance durability and performance. CFM incorporates innovative ceramic matrix composites (CMCs) and advanced alloys in their designs. These materials offer increased resistance to high temperatures and reduce overall weight, resulting in improved engine performance and longevity.

A key technology present in both A132 and A125 engines is the 3D-printed components, which enable intricate designs that were previously impossible or too costly to produce. This innovative manufacturing method not only simplifies production but also reduces waste and enhances the engines' overall performance.

Noise reduction technologies are also a priority, as the aviation industry increasingly focuses on minimizing its environmental impact. Both models feature advanced acoustic liners and the latest in fan blade design, significantly decreasing noise levels during operation. This is particularly beneficial for airlines operating flights in and out of urban areas where noise restrictions may apply.

Moreover, CFM's engines are renowned for their reliability, with maintenance intervals designed to extend engine life and reduce downtime. The A132 and A125 benefit from CFM's extensive experience and proactive approach to service, ensuring operators have access to support throughout the engine's lifecycle.

In summary, CFM Corporation's A132 and A125 engines represent a blend of advanced engineering, innovative technologies, and customer-centric design. With their powerful performance, fuel efficiency, and commitment to environmental sustainability, these engines are set to continue shaping the future of aviation. Airlines that invest in these models gain not only superior operational capabilities but also the promise of reliability and cost-effectiveness in an increasingly competitive market.