Fuel/air mixture and combustion apparatus and associated methods for use in a fuel-fired heating apparatus

What is claimed is: 1. A fuel-fired heating apparatus comprising: a combustion system including: a burner box that is coupled to a fuel-air mixing structure that is configured to generate a fuel-air mixture, the burner box having an interior, an inlet end, and an outlet end; an ignition device disposed in the interior of the burner box between the inlet end and the outlet end and operative to combust the fuel-air mixture entering the interior of the burner box from the fuel-air mixing structure through the inlet end of the burner box to form hot combustion gas within the interior of the burner box; at least one array of linearly arranged heat exchanger tubes having inlets communicating with the interior of the burner box through the outlet end of the burner box for receiving the hot combustion gas generated within the interior of the burner box, the outlets of the heat exchanger tubes being coupled to a collector box structure; a suction fan disposed in the collector box and operable to induce a flow of the hot combustion gas from the interior of the burner box through the at least one array of linearly arranged heat exchanger tubes such that a per-heat exchanger tube flow of the hot combustion gas is greater for a first set of heat exchanger tubes than a second set of heat exchanger tubes creating an operating temperature differential in the at least one array of heat exchanger tubes during firing of the fuel-fired heating apparatus; and an elongate diffuser apparatus comprising a plurality of non-uniform perforations that include: (a) a first set of perforations disposed throughout the elongate diffuser apparatus, and (b) a second set of perforations that are larger in size than the first set of perforations, the second set of perforations disposed at a portion of the elongate diffuser apparatus such that the portion of the elongate diffuser apparatus comprises both the first set of perforations and the second set of perforations, wherein the elongate diffuser apparatus is disposed at the inlet end of the burner box and arranged such that the first set of perforations face the first and second sets of heat exchanger tubes while the portion of the elongate diffuser apparatus comprising the first and second sets of perforations faces the second set of heat exchanger tubes, and wherein said arrangement of the elongate diffuser apparatus at the inlet end of the burner box alters relative combustion gas flow rates through the first set of heat exchanger tubes and the second set of heat exchanger tubes in a manner that reduces the operating temperature differential between the first set of heat exchanger tubes and the second set of heat exchanger tubes by allowing a larger volume of the fuel-air mixture to flow through the portion of the elongate diffuser apparatus facing the second set of heat exchanger tubes than a remainder portion of the elongate diffuser apparatus. 2. The fuel-fired heating apparatus of claim 1 wherein: the fuel-fired heating apparatus is a fuel-fired air heating furnace. 3. The fuel-fired heating apparatus of claim 1 wherein: the elongate diffuser apparatus is a diffuser plate. 4. The fuel-fired heating apparatus of claim 1 wherein the fuel-air mixing structure of the combustion system further includes: a housing having a second inlet end, and a second outlet end coupled to the inlet end of the burner box, a venturi structure disposed in the housing, the venturi structure circumscribing an axis extending between the second inlet and second outlet ends of the housing and comprising: (a) a venturi inlet adjacent the second inlet end of the housing, (b) a venturi outlet adjacent the second outlet end of the housing, and (c) a side wall extending from the venturi inlet to the venturi outlet such that the side wall tapers from the venturi inlet and venturi outlet towards a substantially mid-portion of the venturi structure, wherein the side wall of the venturi structure comprises a plurality of perforations that are circumferentially disposed around the side wall from adjacent the venturi inlet to the substantially mid-portion of venturi structure, a vane structure associated with the second inlet end of the housing and operative to impart to combustion air entering the venturi inlet, and traversing the interior of the venturi structure, by operation of the suction fan, a flow pattern swirling about the axis, and a fuel injector operative to radially inject fuel from a source thereof into the swirling combustion air traversing the interior of the venturi structure to form with the swirling combustion air the fuel-air mixture flowable into the interior of the burner box through the elongate diffuser apparatus. 5. The fuel-fired heating apparatus of claim 4 wherein: the housing defines therein a chamber that laterally extends around the venturi structure and communicates with the interior of the venturi structure via the plurality of perforations on the side wall of the venturi structure such that the fuel-air mixture traversing the plurality of perforations enters and fills the chamber to create a noise attenuating volume and attenuate pressure fluctuations within the venturi structure, thereby diminishing a fuel-air mixing noise during firing of the fuel-fired heating apparatus. 6. The fuel-fired heating apparatus of claim 5 wherein: the housing includes an outer housing portion and an inner housing portion telescoped into the outer housing portion, the fuel injector and the vane structure being carried on the outer housing portion, and the inner housing portion internally carrying the venturi structure and defining the chamber. 7. The fuel-fired heating apparatus of claim 4 wherein: the fuel-fired heating apparatus is a fuel-fired air heating furnace. 8. The fuel-fired heating apparatus of claim 5 wherein the combustion system further includes: a second housing interposed between and communicating with the interiors of the first housing and the burner box and functioning to further mix fuel and air discharged from the first housing. 9. A fuel-fired heating apparatus combustion system comprising: a first housing that is coupled to a fuel-air mixing structure that is configured to generate a fuel-air mixture, the first housing having an interior, an inlet end, and an outlet end; an ignition device disposed in the interior of the first housing between the inlet end and the outlet end; a plurality of heat exchanger tubes having inlets communicating with the interior of the first housing through the outlet end of the first housing for receiving hot combustion gas generated in the interior of the first housing, wherein the plurality of heat exchanger tubes comprises a first set of heat exchanger tubes and a second set of heat exchanger tubes; and an elongate diffuser apparatus comprising a plurality of non-uniform perforations that include: (a) a first set of perforations disposed throughout the elongate diffuser apparatus, and (b) a second set of perforations that are larger in size than the first set of perforations, the second set of perforations disposed at a portion of the elongate diffuser apparatus such that the portion of the elongate diffuser apparatus comprises both the first set of perforations and the second set of perforations, wherein the elongate diffuser apparatus is disposed at the inlet end of the first housing and arranged such that the first set of perforations face the first and second sets of heat exchanger tubes while the portion of the elongate diffuser apparatus comprising the first and second sets of perforations faces the second set of heat exchanger tubes, and wherein said arrangement of the elongate diffuser apparatus at the inlet end of the first housing, alters relative hot c