BI-Fuel Models
OverviewThe alternative fuel system consists of Compressed Natural Gas (CNG) or Liquefied Petroleum Gas (LPG) fuel tanks, a fuel filter, an LPG vaporizer/regulator, a CNG high pressure regulator, a combined metering valve and sensor assembly called a Compuvalve, fuel shutoff solenoids (LPG), an Alternative Fuel Control Module (AFCM), an adjustable tuning tee, fuel rails, fuel injector sleeves, an ALT/GAS switch, an ALT/GAS switch light and an ALT fuse/relay module.
Compressed Natural Gas (CNG) System
Fuel from the Compressed Natural Gas (CNG) fuel tanks flows through the fuel tank lockoff valves, high pressure shutoff valve (F150) and coalescent fuel filter to the gas regulator. The gas regulator provides a consistent system operating fuel pressure of approximately 100 psig. The fuel is passed to the Compuvalve. The Compuvalve meters fuel according to demand, calculates spark advance for maximum power, and registers fuel storage pressure on the gasoline fuel gauge when in ALT mode. A combination of sensors and inputs from the Powertrain Control Module (PCM) are used to monitor the engine and environment to provide closed loop control of fuel. Through speed density calculations, the Compuvalve determines fuel flow and air flow while adjusting the air/fuel mixture using internal injector valves. An air/fuel adjustment is made for each spark event. The fuel is then introduced into the fuel rails and to the intake air system through the fuel injector sleeve assembly.
Liquefied Petroleum Gas (LPG) System (F150 5.4L V8 and F350 6.8L V10)
Liquid propane from the Liquefied Petroleum Gas (LPG) fuel tank flows through the manual shutoff valve through the fuel filter to the lock-off solenoid, before or in, the vaporizer (F-150). When the lock-off solenoid is open, liquid propane flows into the vaporizer heat exchanger. Heat from the engine coolant is used to convert the liquid fuel to gas. When engine coolant is below 0°C (320°F), a cold start heater is used to provide heat to the heat exchanger of the vaporizer. The vaporizer provides gaseous propane at a consistent operating pressure to the Compuvalve. The Compuvalve meters fuel according to demand and calculates spark advance for maximum power and driveability. A combination of sensors and inputs from the Powertrain Control Module (PCM) are used to monitor the engine and the environment to provide closed loop control of fuel. The Compuvalve directs fuel through the low pressure hose to an adjustable tuning tee, through the fuel rail assemblies and is introduced into the intake system through fuel injector sleeve assemblies.
Bi-Fuel Switch-Over Pressures and Temperatures
Bi-Fuel Switch-Over Pressures And Temperatures Chart:
If engine operating temperature is excessively cold, LPG or CNG operation may be delayed until fuel temperature at the vaporizer reaches a sufficiently high level to permit consistent operation fuel pressure.
Alternative Fuel Tank
The CNG and LPG fuel tanks are refillable storage tanks requiring replacement only when damaged or upon failing an inspection. Both the CNG and LPG tanks are equipped with a non-repairable Pressure Relief Device (PRD). A safety valve designed to relieve all fuel pressure within the alternative fuel tank, if exposed to fire (tank replacement is required once the PRD safety valve has been released). The CNG tank construction consists of a metal liner reinforced with a resin impregnated continuous filament shell, whereas the LPG tank is of a welded steel construction. Both tank types are refueled through use of a fuel fill valve (located behind the fuel filler door) containing a safety valve that only allows one-way fuel flow to the tanks (the F-Series CNG can be vented through the fill valve). The CNG and LPG fuel tanks are connected to the fill valve by a high-pressure hose.
The F-Series is supplied with either single or dual CNG or LPG tank configuration, which are bolted inside the forward area of the bed floor (may be mounted underneath rear bed on flatbed vehicles).
The LPG dual tank configuration uses hollow support tubes welded to both tanks that also serve as crossover tubes.
The CNG fuel tank used with the F-150 has an operating pressure rating of 3,600 psi. The LPG fuel tank is fitted with an 80% outage valve (used when refueling), an 80% auto stop/fill valve and an internal float device used to monitor the fuel level.
The F-Super Duty 350 is supplied with an LPG tank mounted to the LH frame rail behind the cab. An optional tank location is behind the rear axle.
Coalescent Fuel Filter (CNG)
The coalescent fuel filter removes water and particulate contamination from the CNG fuel system. The fuel filter housing has a drain plug allowing water to be drained during scheduled maintenance.
Fuel Filter (LPG)
The fuel filter removes water and particulate contamination from the LPG fuel system. LPG fuel travels through this filter in a liquid state.
Fuel Injector Valves
When in CNG or LPG mode, the Compuvalve instructs the Powertrain Control Module (PCM) to shut off the gasoline fuel injectors and shuts off the gasoline fuel pump through the ALT fuse/relay module. The Compuvalve houses two types of injectors. The metal cased injectors are "high flow" and deliver fuel during cruise and acceleration. These are strictly on/off devices. The plastic cased injectors provide idle and trimming flow. These "low flow" injectors are pulse width modulated as required. The fuel is delivered to the intake manifold via fuel injector sleeves.
Gas Regulator (CNG)
High pressure CNG enters the high pressure regulator. The gas regulator delivers fuel at 100 psi to the Compuvalve.
Vaporizer (LPG)
F-150:
F-350/450/550 Super Duty:
Liquid propane enters the vaporizer and is then heated to a gaseous state. The gaseous fuel is released to the Compuvalve at 40 psia for engine coolant temperatures greater than or equal to 25°C (77°F). Below this temperature, delivery pressure decreases with reduction of engine coolant temperature to a minimum of 32 psia at 0°C (32°F), optimizing vaporization capacity.
ALT Fuse/Relay Module
The ALT fuse/relay module contains two replaceable fuses. Refer to the Vehicle/Diagrams for fuse location. Fuse 1 (3A) protects the Battery Feed (BATT) to the Compuvalve and Fuse 2 (10A) protects the BATT to the ALT fuel power relay, in turn protecting the VPWR circuits of the Compuvalve. The ALT fuse/relay module also contains two dual mini ISO relays: the ALT fuel power relay and the fuel pump cutoff relay. The ALT fuel power relay provides power to the Compuvalve when the key is in the ON position. The fuel pump cutoff relay interrupts the power to the gasoline fuel pump from the base gasoline fuel pump relay when the ALT/GAS switch is placed in the ALT position.
Alternative Fuel Control Module (AFCM)
The Alternative Fuel Control Module (AFCM) is incorporated within the Compuvalve and allows communication between the Compuvalve and the Powertrain Control Module (PCM). The AFCM communicates desired operating mode, ALT or GAS, to the PCM. This allows information to be shared between modules and facilitates troubleshooting. When ALT mode is selected and operating conditions are satisfactory, the Compuvalve, through the AFCM, signals the PCM to turn off the gasoline fuel injectors. During alternative fuel operation, if the fuel source drops below a specified amount, the Compuvalve through the AFCM signals the PCM to turn on the gasoline fuel injectors while the Compuvalve shuts off alternative fuel. This allows smooth switching of fuel systems.
Solenoid Tank Valves (CNG)
The tank valve solenoid receives VPWR from the Inertia Fuel Shutoff (IFS) switch. If the IFS is tripped for any reason (i.e. accident), or if the key is on and there is no tach signal received, the tank valve will be closed.
In the event that the ALT fuel system auto switches to base gasoline mode, the tank valves will close. This is triggered when the FRPREAB PID drops to 45 psia. Only one solenoid tank valve is opened when selecting either ALT position of the three-position ALT/GAS switch when the ignition key is in the ON or crank position. (Super Duty with dual LPG tank configuration).
Solenoid Lockoff Valve (LPG)
Solenoid Lockoff Valve F-150 (LPG):
Solenoid Lockoff Valve F-350/450/550 Super Duty:
The lockoff solenoid valve is similar to the solenoid tank valve in operation. The lockoff solenoid valve is positioned close to the vaporizer and regulates fuel flow into the vaporizer inlet.
Compuvalve
The Compuvalve electronically meters fuel according to demand and calculates spark advance for optimum driveability and emissions. A combination of sensors and inputs are used to dynamically monitor the engine operating environment. Fuel is delivered through the low pressure hose into the fuel rails and through the injector sleeves. Internal to the Compuvalve are the Fuel Absolute Pressure (FAP) sensor, the Fuel Rail Temperature (FRT) sensor, the Manifold Absolute Pressure (MAP) sensor, and the Alternative Fuel Control Module (AFCM). The Compuvalve intercepts the base vehicle fuel gauge signal and substitutes a signal from a float style sensor in the alternative fuel tank (LPG) or a fuel tank pressure sensor mounted on the high pressure regulator (CNG). This allows the Compuvalve to display the alternative fuel level on the gasoline fuel gauge while in ALT mode.
Fuel Level Float (LPG)
A float style fuel level sending unit is mounted in the alternative fuel tank. The Compuvalve receives input from the fuel level float, interrupts the signal from the base vehicle fuel gauge signal and sends a pulse width modulated signal to the base gasoline fuel gauge representing the level of liquid propane.
Cold Start Heater (LPG)
The cold start heater is integral to the vaporizer/regulator. When engine coolant is below 0°C (32°F) the cold start heater turns on and turns off when engine coolant reaches 10°C (50°F) The cold start heater is used to provide heat to the heat exchanger in the vaporizer.
Cold Start Heater Relay (LPG)
The cold start heater is controlled by the Compuvalve via the cold start relay.
Dash Reset Relay (F-Super Duty 350)
The dash reset relay allows for more accurate display of fuel level when switching from one fuel source to the other. Use of the dash reset relay prevents fuel gauge floating, incorrect level reading or slow fuel gauge response.
Tank Valve Select Relay and LPG Level Sender Select Relay
(F-350 Super Duty dual LPG tank option only)
The tank valve select relay and the LPG level sender select relay are controlled simultaneously and are used to toggle power to either LPG tank one or to LPG tank two when the ALT fuel system is in operation. Both relays default power to LPG tank one until the dual ALT/GAS switch is in the secondary ALT position. The ALT/GAS switch then provides power to energize both relay coils. When the relay coils are energized power is disconnected from LPG tank one and switched to LPG tank two. The tank valve select relay toggles system power between the LPG tank lock off valve while the LPG level sender select relay toggles between the LPG tank fuel level sender return circuits connecting one or the other to the Compuvalve input.
ALT/GAS Switch, ALT/GAS Switch Light
The ALT/GAS switch permits the driver to select which fuel the vehicle will operate on. The ALT/GAS switch is located on the instrument panel.
The ALT/GAS switch only operates when the vehicle is at a stop with the ignition in the OFF position. If the switch is moved while the vehicle is running, the gaseous fuel system will NOT automatically change fuel mode and no damage to the vehicle will occur. The exception is the vehicles equipped with the LPG extended-range fuel tank system, which permits the driver to switch between the two LPG fuel tanks while driving.
Prior to starting the vehicle (with the ignition in the OFF position), determine which fuel you intend to use and press the ALT/GAS switch.
When the switch is placed in the ALT position the engine will operate in the gaseous fuel mode, running on CNG or LPG (depending upon application)
^ A green indicator light will illuminate on the fuel selector switch to indicate that the vehicle is operating in the gaseous fuel mode (CNG or LPG, depending upon application).
^ The green indicator light operates independently of the fuel selector switch and is controlled by the compuvalve.
When the selector switch is placed in the GAS position, the engine will operate in the unleaded gasoline mode.
The ALT/GAS switch sends a signal to the Compuvalve requesting ALT fuel mode, when placed in the ALT position. If no signal is received by the Compuvalve, the system defaults to base gasoline mode. The ALT/GAS switch light is incorporated into the ALT/GAS switch. It is controlled by the Compuvalve and is illuminated when operating in ALT/FUEL mode. If an emission-critical Diagnostic Trouble Code (DTC) is recorded, the ALT/GAS switch light will change from a steady on to an irregular flashing condition. If a communication fault arises the indicator will flash with a steady pulse. Once the key is switched to ON, the switch will not change the fuel operating mode. The ALT/GAS switch light has the following status modes:
- OFF
- ON STEADY
- ON THEN OFF (Quickly or Slowly)
- FLASHING (REGULAR OR IRREGULAR) (Quickly or Slowly)
The dual tank configuration used on F-Super Duty 350 (if equipped) utilizes a three-position switch for selecting each of the fuel tanks individually (Gasoline, LPG tank one or LPG tank two) and is designed with two separate ALT lights indicating which LPG tank is in use when illuminated. The LPG dual tank switch permits the driver to switch between the two fuel tanks while driving.
The selector switch has two gaseous fuel mode positions, LPG1 and LPG2.
One of the two green indicator lights will illuminate on the fuel selector switch to indicate which LPG fuel tank is being used.
The operation of the dual tank ALT/GAS switch ALT lights is different than the single tank ALT/GAS switch. With the dual tank ALT/GAS switch, when the vehicle is keyed on and the switch is in either ALT fuel position, the corresponding light will illuminate for approximately one second and then go out. The light will go out regardless of whether there is fuel in the tanks or not. (The single ALT/GAS switch light going out in approximately one second can indicate no fuel). When the vehicle is cranked the light will come back on and will remain on (while cranking or running) if there is fuel in the tank. The reason for this operation is that the power for the dual ALT/GAS switch lights comes from the base vehicle fuel pump power circuit. This power is circuit is energized for one second after key on or while the engine is cranking. After a number of seconds with the key on but the engine not running, both ALT lights may glow dimly. This is no cause for concern.
Fuel Gauge
Fuel gauge operation in a CNG or LPG Bi-Fuel vehicle (depending upon application) behaves similarly to a standard gasoline fuel gauge. The fuel gauge provides a linear reading from full down to empty.
^ Fuel gauge operation for an LPG Bi-Fuel vehicle is based on a float type sensor measuring the level of the liquid propane in the fuel tanks.
^ Fuel gauge operation for a CNG Bi-Fuel vehicle is based on the pressure and temperature of the natural gas in the fuel tank(s). A full fuel gauge reading will occur at a pressure of approximately 24,800 kPa (3,600 psi) at a temperature of approximately 21°C (70°F). For more information on fuel gauge performance during the fast-fill method of CNG fueling, refer to the Owner Literature.
F-Series vehicles have their instrument cluster connected to the SCP bus (BUS+ and BUS-). Intercepts are not required in the fuel gauge and instrument cluster power signals because the Bi-Fuel system can send fuel level data over the SCP bus. Refer to the Vehicle/Diagrams for information about Bi-Fuel system electrical taps and intercepts.
Adjustable Tuning Tee
The adjustable tuning tee allows a proportioned percentage of the fuel flow to each of the fuel rails. There are two individual adjustment screws, one for each of the two output fuel lines.
NOTE: For the 6.8L Super Duty the adjustment screws have been preset in the neutral position. No tuning procedure exists for the 6.8L engine. Do not adjust the screws for the Super Duty.
Fuel Rail
The fuel rails route alternative fuel from the Compuvalve to the base vehicle intake runners.
Injector Sleeves
The injector sleeves are placed in the injector seats. The gasoline fuel injectors are placed in the injector sleeve seats. The sleeves bypass the gasoline fuel injectors, delivering alternative fuel into the intake system and provide a path of fuel flow from the gasoline injectors.
Fuel Tank Temperature Sensor (CNG)
The Fuel Tank Temperature (FTT) sensor is a thermistor mounted on the CNG fuel tank and is used to calculate fuel density. The Compuvalve sends the FTT a five volt reference. The FTT sensor is also used to keep the fuel gauge from fluctuating during temperature changes. A non-functioning sensor will give a constant reading of 15°C (59°F).
Fuel Tank Pressure Sensor (CNG)
The Fuel Tank Pressure (FTP) sensor is integral to the gas regulator. It provides information on system pressure to the Compuvalve and is the main input for the alternative fuel gauge reading.
Fuel Absolute Pressure Sensor
The Fuel Absolute Pressure (FAP) sensor is integral to the Compuvalve. It is a pressure transducer that converts pressure to voltage through a piezo-resistive element. This signal is monitored to make sure that the pressure regulator is functioning properly and is used to adjust the injector combination according to supply pressure. The FAP sensor allows the vehicle to start in ALT fuel mode at a minimum of 95 psia (CNG) or minimum 25 psia (LPG). It also controls when the vehicle will auto switch, 45 psia (CNG) or 25 psia (LPG).
Fuel Rail Temperature Sensor
The Fuel Rail Temperature (FRT) sensor is integral to the Compuvalve. The FRT is used to calculate fuel density. It is supplied five volts from the Compuvalve and as the temperature of the sensing element increases, its resistance increases.
Manifold Absolute Pressure Sensor
The Manifold Absolute Pressure (MAP) sensor is integral to the Compuvalve. It is a pressure transducer that converts pressure to voltage through a piezo-resistive element. It is attached to the intake manifold via a vacuum line with a damper tube that is routed to an external hose barb on the Compuvalve. MAP is used to monitor engine operating state.