Fuel filter and bypass valve arrangement

The invention claimed is: 1. A gas turbine engine having a fuel system including an apparatus, the apparatus comprising: a housing defining a longitudinal axis and containing a fuel filter assembly and a fuel/oil heat exchanger, the housing defining a chamber extending longitudinally between the fuel filter assembly and an end wall of the housing, a bypass valve assembly within the chamber and connected to the fuel filter assembly, the chamber being in fluid communication with the fuel filter assembly via a filter entry, the housing including a first inlet port for introducing a first fuel flow into the chamber and a second inlet port for introducing a second fuel flow into the chamber, the second inlet port being in fluid communication with the chamber via the fuel/oil heat exchanger such that the second fuel A flow is heated before a mixing with the first fuel flow in the chamber, the first and second inlet ports being positioned such that the first and second fuel flows mix one with the other within the chamber prior to entering the fuel filter assembly via the filter entry, and the bypass valve assembly being open only when a fuel pressure in the chamber rises to a predetermined level, to allow the chamber to be selectively in fluid communication with a bypass passage which bypasses a filtering unit of the fuel filter assembly. 2. The gas turbine engine as defined in claim 1 wherein the first inlet port is located adjacent the end wall of the housing and is oriented in a tangential direction with respect to the longitudinal axis. 3. The gas turbine engine as defined in claim 1 wherein the fuel/oil heat exchanger is annular and positioned around the fuel filter assembly, the filter entry being formed with an annular gap located radially between the fuel/oil heat exchanger and the fuel filter assembly. 4. The gas turbine engine as defined in claim 1 wherein the chamber is annular and positioned around the bypass valve assembly, the first inlet port being tangentially oriented with respect to the longitudinal axis to direct the first fuel flow to move circumferentially in the annular chamber and the fuel/oil heat exchanger being configured and positioned such that the heated second fuel flow discharged from the fuel/oil heat exchanger flows radially inwardly within the annular chamber for mixing with the circumferential first fuel flow prior to entering the filter entry or a valve entry of the bypass valve assembly. 5. The gas turbine engine as defined in claim 4 wherein the apparatus comprises an ice accretion device located within the chamber and surrounding the bypass valve assembly to allow ice formation and accumulation on the device, an end of the fuel/oil heat exchanger extending longitudinally into the chamber and surrounding the ice accretion device for discharging the heated second fuel flow from said end of the fuel/oil heat exchanger into an area of the chamber to mix with the first fuel flow. 6. A gas turbine engine having a fuel system including an apparatus, the apparatus comprising: a housing defining a longitudinal axis and containing a fuel filter assembly, a bypass valve assembly and an ice accretion device within the housing, the bypass valve assembly being connected to the fuel filter assembly, the housing defining a chamber surrounding the bypass valve assembly, and having a first inlet port for introducing a first fuel flow into the chamber, the chamber extending longitudinally between the fuel filter assembly and an end wall of the housing, the chamber being in fluid communication with the fuel filter assembly via a filter entry and being in fluid communication with the bypass valve assembly via a valve entry, the ice accretion device being positioned in the chamber between the filter entry and the valve entry to allow ice formation and accumulation on the device, the bypass valve assembly being open only when a fuel pressure in the chamber rises to a predetermined level, to allow fluid communication between the chamber and a bypass passage which bypasses a filtering unit of the fuel filter assembly. 7. The gas turbine engine as defined in claim 6 wherein the ice accretion device comprises a perforated baffle positioned and oriented such that the first fuel flow has to pass through the perforated baffle in order to enter the fuel filter assembly via the filter entry. 8. The gas turbine engine as defined in claim 6 wherein the ice accretion device comprises an annular perforated baffle including a first end having a first diameter and second end having a second diameter greater than the first diameter, the baffle being positioned around the bypass valve assembly and adjacent the fuel filter assembly. 9. The gas turbine engine as defined in claim 6 wherein the apparatus comprises an ice-protection lip extending outwardly from the bypass valve assembly and located longitudinally between the valve entry and the ice accretion device. 10. The gas turbine engine as defined in claim 9 wherein the valve entry is located adjacent the end wall of the housing and wherein the ice protection lip is located adjacent the valve entry. 11. The gas turbine engine as defined in claim 6 wherein the apparatus further comprises a fuel/oil heat exchanger within the housing, the housing including a second inlet port configured for introducing a second fuel flow to pass through and to be heated within the fuel/oil heat exchanger and to then be discharged into the chamber to mix with the first fuel flow within the chamber. 12. The gas turbine engine as defined in claim 11 wherein the fuel/oil heat exchanger surrounds the fuel filter assembly, the filter entry being formed with a gap between the fuel filter assembly and the fuel/oil heat exchanger. 13. The gas turbine engine as defined in claim 12 wherein the fuel/oil heat exchanger comprises an end extending longitudinally into the chamber to discharge the heated second fuel flow from said end of the fuel/oil heat exchanger into an area of the chamber to mix with the first fuel flow before the first fuel flow passes through the ice accretion device toward the filter entry. 14. The gas turbine engine as defined in claim 13 wherein the ice accretion device comprises an annular perforated baffle having longitudinally opposed first and second ends, the first end being supported on the bypass valve assembly adjacent the fuel filter assembly and the second end being supported on said end of the fuel/oil heat exchanger. 15. The gas turbine engine as defined in claim 6 wherein the first inlet port is located adjacent the end wall of the housing and is oriented in a tangential direction with respect to the longitudinal axis. 16. A gas turbine engine having a fuel system including an apparatus, the apparatus comprising: a housing defining a longitudinal axis and containing a fuel filter assembly, a bypass valve assembly, a fuel/oil heat exchanger and a perforated baffle within the housing, the housing defining a chamber surrounding the bypass valve assembly, the chamber extending longitudinally between the fuel filter assembly and an end wall of the housing, the chamber being in fluid communication with the fuel filter assembly via a filter entry and being in fluid communication with the bypass valve assembly via a valve entry, the perforated baffle being positioned in the chamber between the filter entry and the valve entry to allow ice formation and accumulation on the perforated baffle, the bypass valve assembly being open only when a fuel pressure in the chamber rises to a predetermined level, to allow fluid communication between the chamber and a bypass passage which bypa