Oven with recirculation of combustion exhaust gases

The invention claimed is: 1. A method of heating a cooking chamber of an oven that includes a gaseous fuel heat exchanger, the method comprising: providing a flow path for circulating air from the cooking chamber past the heat exchanger to pick-up heat and then back to the cooking chamber; providing a first combustion path gas flow path from the heat exchanger to an exhaust system for delivering combustion path gases away from the oven; providing a second combustion path gas flow path from the heat exchanger to the cooking chamber for delivering combustion path gases into the cooking chamber; cooking food within the cooking chamber and selectively controlling flow of combustion path gases along at least one of the first combustion gas flow path or the second combustion gas flow path. 2. The method of claim 1 wherein: the first combustion path gas flow path includes a first draft inducing blower and a first damper downstream of the heat exchanger, the second combustion path gas flow path includes a second draft inducing blower and a second damper downstream of the heat exchanger, wherein the first and second draft inducing blowers and the first and second dampers are controlled to determine where combustion path gases flow. 3. The method of claim 2 wherein both the first draft inducing blower and the second draft inducing blower are mounted to a common draft inducing plenum, the common draft inducing plenum making up part of the first combustion path gas flow path and part of the second combustion path gas flow path, a first outlet of the common draft inducing plenum positioned to deliver gases through the first draft inducing blower and to the exhaust system, and a second outlet of the common draft inducing plenum positioned to deliver gases through the second draft inducing blower and back to the cooking chamber. 4. The method of claim 1 , further comprising: providing a flow path for delivering air from the cooking chamber to the exhaust system, the flow path including an inlet opening in a lower part of the cooking chamber. 5. The method of claim 1 , further comprising: monitoring one or more oven conditions during combustion, and selectively controlling volume of combustion path gases that are delivered from the heat exchanger along the second combustion path gas flow path to the cooking chamber. 6. The method of claim 1 , further comprising: monitoring one or more oven conditions during combustion, and selectively controlling whether combustion path gases are delivered (i) from the heat exchanger along the second combustion path gas flow path to the cooking chamber or (ii) from the heat exchanger along the first combustion gas flow path to the exhaust system. 7. A method of heating a cooking chamber of an oven that includes a gaseous fuel heat exchanger, the method comprising: utilizing a flow path for circulating air from the cooking chamber past the heat exchanger to pick-up heat and then back to the cooking chamber; utilizing a first combustion path gas flow path from the heat exchanger to an exhaust system for delivering combustion path gases away from the oven; utilizing a second combustion path gas flow path from the heat exchanger to the cooking chamber for delivering combustion path gases into the cooking chamber; selectively controlling flow of combustion path gases along at least one of the first combustion gas flow path or the second combustion gas flow path; wherein flow of combustion path gases is controlled as follows: (a) prior to initiating combustion, conducting a purge operation in which combustion path gases are delivered from the heat exchanger along the first combustion path gas flow path to the exhaust system, and the combustion path gases are prevented from flowing along the second combustion gas flow path into the cooking chamber; (b) after initiating combustion, (i) delivering air from the cooking chamber, across the heat exchanger to pick-up heat and then back to the cooking chamber; (ii) delivering at least some combustion path gases from the heat exchanger along the second combustion path gas flow path into the cooking chamber. 8. The method of claim 7 wherein: the first combustion path gas flow path includes a first draft inducing blower and a first damper downstream of the heat exchanger, during step (b)(ii) the first draft inducing blower is turned off and the first damper is closed to inhibit flow along the first combustion gas flow path; the second combustion path gas flow path includes a second draft inducing blower and a second damper downstream of the heat exchanger, during step (a) the second draft inducing blower is turned off and the second damper is closed to inhibit flow along the second combustion gas flow path. 9. The method of claim 8 wherein both the first draft inducing blower and the second draft inducing blower are mounted to a common draft inducing plenum, the common draft inducing plenum making up part of the first combustion path gas flow path and part of the second combustion path gas flow path, a first outlet of the common draft inducing plenum positioned to deliver gases through the first draft inducing blower and to the exhaust system, and a second outlet of the common draft inducing plenum positioned to deliver gases through the second draft inducing blower and back to the cooking chamber. 10. The method of claim 7 wherein the purge operation is triggered by a call for ignition. 11. An oven, comprising: a cooking chamber; a gas-fired heat exchanger external of the cooking chamber, the heat exchanger including a plurality of heat exchange tubes; a flow path for circulating air from the cooking chamber past the heat exchanger across the heat exchange tubes to pick-up heat and then back to the cooking chamber under operation of a blower; a first combustion path gas flow path from the heat exchanger to an exhaust system for delivering combustion path gases away from the oven; a second combustion path gas flow path from the heat exchanger to the cooking chamber for delivering combustion path gases into the cooking chamber; a control arrangement configured to selectively control the flow of combustion path gases along at least one of the first combustion gas flow path or the second combustion gas flow path. 12. The oven of claim 11 wherein: the first combustion path gas flow path includes a first draft inducing blower and a first damper downstream of the heat exchanger, the second combustion path gas flow path includes a second draft inducing blower and a second damper downstream of the heat exchanger, wherein the control arrangement is configured to control the first and second draft inducing blowers and the first and second dampers to determine where combustion path gases flow. 13. The oven of claim 12 wherein both the first draft inducing blower and the second draft inducing blower are mounted to a common draft inducing plenum, the common draft inducing plenum making up part of the first combustion path gas flow path and part of the second combustion path gas flow path, a first outlet of the common draft inducing plenum positioned to deliver gases through the first draft inducing blower and to the exhaust system, and a second outlet of the common draft inducing plenum positioned to deliver gases through the second draft inducing blower and back to the cooking chamber. 14. The oven of claim 11 wherein the control arrangement is configured to control flow of combustion path gases as follows: (a) prior to initiating combustion, a purge operation is conducted in which combustion path gases are delivered from the heat exchanger along the