Vehicle Fitment
Ford
Mercury
Specifications
| Catalytic Series | |
|---|---|
| Converter Configuration | |
| Position | |
| Converter Body Material | |
| Catalytic Converter Substrate Material | |
| Inlet Connection Type | |
| Outlet Connection Type | |
| Inlet Type A | |
| Outlet Type A | |
| Inlet Type B | |
| Catalytic Inlet Diameter | |
| Catalytic Outlet Diameter | |
| Catalytic Converter Overall Length | |
| O2 Sensor Port | |
| Catalytic Converter Format | |
| Catalytic Converter Oxygen Sensor Location | |
| Air Tube Adaptable | |
| Mount Type |
Features
- Made of High Quality Stainless Steel
- Improve Torque and Throttle Response
- Ceramic Catalytic Substrate
- Well Suited to Muscle Car Applications
Product Details
Standard Grade Catalytic Converter (2029112) by Flowmaster®. Converter Configuration: Direct Fit. Position: Front and Middle. With 4 O2 Sensor Ports. Catalytic Inlet Diameter: 2.25". Catalytic Outlet Diameter: 2.5". Catalytic Converter Overall Length: 57.5". Flowmaster's Standard Grade line of Manifold direct fit catalytic converters are specifically designed to meet or exceed OEM specifications for exact fit and performance, and are available for a wide range of popular applications.
These converters all meet USEPA emissions standards and include a 25,000 mile emissions warranty, and 50,000 mile/5 year stainless steel exterior casing warranty. These cannot be shipped to California addresses or be installed on vehicles in other states that have adopted all or parts of California emissions standards.
The exhaust gases from an engine carry considerable energy. This energy can be put to use through careful design of the components that make up the exhaust system. Flowmaster has put a lot of R&D-efforts into the crucial components where gases from different cylinders join. If these parts of the exhaust system are improperly designed, the exhaust forces from the different cylinders can create uncontrolled turbulence that robs the engine of torque and power. Flowmaster’s patented D-port design ensures that the force in the exhaust pulses is properly used to improve scavenging. With the D-port design, the exhaust pulses mainly stay in the same pipe, with the D-port acting as an air pump, creating a low-pressure zone in the adjoining pipe. This low-pressure zone pulls the oncoming exhaust pulse in the second pipe out from the engine, and when this pulse passes the D-port, it does the same for the exhaust in the first pipe.
The Scavenger Series X-pipe is also designed to let certain frequencies of pressure and sound waves cross over between the pipes, to cancel each other out. This reduces interior sound in the vehicle, and the energy lost when the sound waves collide helps create the low-pressure area in the X-pipe that is key to its positive effect on exhaust scavenging.
Reviews
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1-2 of 2 Reviews
Posted by Zach (Pottstown, PA) / July 20, 20202003 Dodge Ram
Posted by Alan (Middleboro, MA) / November 26, 20172000 Dodge Ram
Questions and Answers
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