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1985 chevy k 10 fuel line routing

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2004 Chevrolet Chevy K Silverado – 4WD Evaporative Emission (EVAP) Canister Vent Solenoid Valve Replacement Pickup

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Evaporative Emission (EVAP) Canister Vent Solenoid Valve Replacement Pickup Removal Procedure Important Clean the evaporative emission (EVAP) connections and surrounding areas prior to disconnecting the fittings in order to avoid possible system contamination. 1. Raise and suitably support the vehicle. Refer to Lifting and Jacking the Vehicle in General Information. 2. Remove the harness clip from the canister vent solenoid (CVS) line. 3. Disconnect the CVS electrical connector. 2004 Chevrolet Chevy K Silverado – 4WD 4. If the vehicle is equipped with a 6 ft box, disconnect the EVAP CVS line from the canister. 5. Remove the CVS clip from the frame crossmember. 6. Push in the retainer and remove the CVS from the fuel tank clip. 7. If the vehicle is equipped with a 8 ft box, disconnect the EVAP CVS line from the canister. 8. Remove the CVS clip from the frame crossmember. 9. Push in the retainer and remove the CVS from the fuel tank clip. Installation Procedure 1. If the vehicle is equipped with a 8 ft box, install the CVS to the fuel tank until the clip engages. Important On vehicles equipped with a 8 ft box, the CVS line is routed below the frame crossmember. 2. Install the CVS clip to the frame crossmember. 3. Connect the EVAP CVS line to the canister. 4. If the vehicle is equipped with a 6 ft box, install the CVS to the fuel tank until the clip engages. Important On vehicles equipped with a 6 ft box, the CVS line is routed above the frame crossmember. 5. Install the CVS clip to the frame crossmember. 6. Connect the EVAP CVS line to the canister. 7. Connect the CVS electrical connector. 8. Install the harness clip to the canister vent solenoid (CVS) line. 9. Lower the vehicle.

1985 Chevrolet 305 HIGH-FLO T.P.I. RUNNERS INSTALLATION MANUAL

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INSTALLATION PROCEDURE 1. Disconnect battery negative cable. 2. Disconnect throttle body from Mass Air Flow Sensor boot and disconnect all lines from throttle body (linkage, water, vacuum, etc.). 3. Remove linkage attachments from plenum and move out of the way. Disconnect plenum from runners and remove (it is not necessary to remove throttle body from plenum). You may need to loosen lower runner bolts in order to free plenum. 4. Remove runners from baseplate and loosen, but do not remove the fuel rails. 5. Trial fit your new intake runners prior to final installation on your vehicle. This way you can get a “feel”for what goes where and why. NOTE: Because of varying O.E.M. fuel line routing, some material may need to be removed from the runners in order to clear the fuel lines. Check for clearance before installing onto engine. 6. Thoroughly clean the flange surfaces of the plenum, runners, and baseplate and remove any remaining gasket material. Use rags or paper towels in the open ports to make sure your intake system is kept free of all foreign objects (i.e., dirt, gasket material, etc.). 7. Place runners into position on the baseplate making sure to use the proper runner/gasket on the proper side and start bolts. 8. Tighten down fuel rails and place plenum into position. Start bolts, but do not tighten (make sure proper gaskets are used). 9. Align plenum and runners and tighten all runner and plenum bolts. 10. Reconnect all connections and linkage to the throttle body and reconnect the throttle body to Mass Air Flow Sensor boot. If clearance is a problem, it may be necessary to discard the original steel hard line which runs from the O.E.M. baseplate to a rubber hose connecting to the charcoal canister and replace with a rubber hose. On the passenger’s side of the engine, discard the original hard line (if so equipped) which ran from the valve cover vent to the throttle body and replace with 3/8″ rubber hose if necessary for clearance. 11. Check and top off any lost coolant, reconnect battery, and start engine and run briefly, monitoring the “check engine”light. Turn off engine and check installation for any leaks or abnormalities

2002 Chevrolet Tahoe – 4WD Fuel Line Disconnect Tool for Fuel Filter Removal/ Installation Procedure on 5.3L Flexible Fuel Engine

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2. Install the J 34730-1A . 3. Loosen the fuel fill cap in order to relieve fuel tank vapor pressure. 4. Open the valve on the J 34730-1A in order to bleed the system pressure. The fuel connections are now safe for servicing. 5. Drain any fuel remaining in the gauge into an approved container. 6. Once the system pressure is completely relieved, remove the J 34730-1A . 7. Raise and suitably support the vehicle. Important Clean the fuel filter connections and surrounding area before disconnecting the fuel lines in order to avoid possible fuel system contamination. 8. Using a flare nut wrench and a backup wrench, disconnect the fuel line fitting from the fuel filter. 9. Pull the quick-connect fitting back until the internal retainers hit the filter stop. 10. Twist one end of the J 46363 – Fuel Line Disconnect Tool and insert it between the quick-connect fitting and the filter. 11. Twist the opposite end of the J 46363 – Fuel Line Disconnect Tool and insert it between the quick-connect fitting and the filter. 12. Once the J 46363 – Fuel Line Disconnect Tool is inserted, ensure the tool is parallel to the filter and the fitting. 13. While holding the filter, push the quick-disconnect fitting towards the filter in order to disconnect the quick- connect fitting. 14. Remove the quick-connect fitting from the filter. 15. Remove the filter from the bracket. 16. Install the new fuel filter, P/N 15173334 or P/N 25164003 (A/C Delco P/N GF847), to the bracket. 17. While holding the filter, push the fitting towards the filter in order to connect the quick-connect fitting. 18. Using a flare nut wrench and a back up wrench, connect the fuel line fitting to the filter. 19. Position the fuel sensor bracket into place and install the two nuts. Tighten Tighten the two nuts to 17 N·m(13 lb ft). 20. Lower the vehicle. 21. Tighten the fuel cap. 22. Connect the negative battery cable.

1998-2000 HONDA Accord L4 Replace the fuel pressure regulator, and reroute the fuel pressure regulator vacuum line

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1. Locate and identify the three vacuum ports on the intake manifold. 2. Disconnect and discard the vacuum hose that connects the fuel pressure regulator to vacuum port C. 3. Plug vacuum port C with the cap from the tube kit. 4. Replace the fuel pressure regulator. Refer to page 11-113 of the 1998-00 Accord Service Manual. 5. Install the new vacuum hose kit using one of the following procedures 1. Remove and discard the cap from vacuum port A. 2. Connect the short vacuum hose to vacuum port A M/T WITH CRUISE CONTROL 2. Disconnect and discard the vacuum hose that connects the fuel pressure regulator to vacuum port C. 3. Plug vacuum port C with the cap from the tube kit. 4. Replace the fuel pressure regulator. Refer to page 11-113 of the 1998-00 Accord Service Manual. 5. Install the new vacuum hose kit using one of the following procedures. Zoom Sized for Print 1. Remove and discard the cap from vacuum port A. 2. Connect the short vacuum hose to vacuum port A. Zoom Sized for Print 3. Anchor the long vacuum hose by attaching it to the rear intake air duct clip and to the cruise control hose. . Route the new vacuum hose to the fuel pressure regulator. Attach the hose to the three rear clips on the engine wire harness cover. Zoom Sized for Print 1. Remove and discard the vacuum hose from vacuum port A. This hose supplies vacuum to the rear engine mount control solenoid. 2. Connect the short vacuum hose from the top of the Y fitting to vacuum port A

1984-1995 Honda Accord/Prelude In­Tank Fuel Pumps TEST/REPAIR MANUAL

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Carbureted Fuel System GENERAL INFORMATION On these vehicles, the engine management system is considered part of the emission control system. The major components include the carburetor(s), feedback control system, the air injection system, a throttle control system and the EGR system. The system consists of sensors and switches that feed information to the Electronic Control Unit (ECU), which will then operate several solenoid valves to maintain the ideal air/fuel ratio under all conditions. As useful as the tests found in this section are, the first step in repair or service to engine management systems is still to gain as much information as possible about the problem; when and under what conditions it occurs. At highway speed? At idle only? Only under heavy load or hard acceleration? Wet weather? Defining the problem will eliminate many systems from consideration and possibly point to the affected system. Before diving into an extended electrical diagnosis, take the time to review the basics. Check every vacuum line for cracks or leaks. Check every electrical connector for corrosion or loose pins. Quite often, simply unplugging and reconnecting a connector will break up corrosion on the pins and restore the circuit. Watch out for poor grounds, particularly if the car has experienced major bodywork. COMPONENT TESTING Air Injection System The purpose of this system is to supply oxygen to the exhaust stream at a point in the exhaust manifold that is hot enough to burn off some of the hydrocarbon emissions. The main component is an air suction valve. The valve is spring loaded to stay closed, with engine vacuum supplied to a diaphragm that reduces the spring pressure and allows the reeds to open. The ECU regulates the engine vacuum to the diaphragm by operating a solenoid valve. 1. With the engine at normal operating temperature and at idle, remove the air cleaner and listen for a bubbling sound at the air suction port. There should be no sound at idle, meaning the air suction valve is closed. 2. If the noise is heard at the air suction port, disconnect the vacuum hose at the air suction valve and connect a vacuum gauge to the hose. There should be no vacuum. If there is vacuum and the noise stops, the problem is in the control system. If there is no vacuum and the bubbling sound is still there, the air suction valve is defective and must be replaced. 3. To test the valve, draw a vacuum at the air suction valve diaphragm and listen for a bubbling sound at the air suction port. If no sound is heard, the air suction valve or diaphragm is faulty. Throttle Control System