High performance electric grill, method, and heat radiating module

What is claimed is: 1. A module for radiating heat energy for cooking food comprising: a module housing having a heating cavity therein, said module housing having a housing bottom wall and an upwardly extending housing outer side wall, said heating cavity having a heating cavity bottom wall and an upwardly extending heating cavity side wall, said heating cavity bottom wall is positioned above said housing bottom wall to form a bottom gap between said heating cavity bottom wall and said housing bottom wall, said heating cavity side wall laterally surrounds said heating cavity, said housing outer side wall laterally surrounds and is spaced apart from said heating cavity side wall to form an upwardly extending annular gap between said housing outer side wall and said heating cavity side wall, said upwardly extending annular gap laterally surrounds said heating cavity, an upper end of said heating cavity side wall defines an outer perimeter of an upper end of said heating cavity, and an upper end of said housing outer side wall defines an outer perimeter of an upper end of said module housing; an emitter plate on said upper end of said module housing, said emitter plate having an upper emitting surface, said upper emitting surface comprising an alternating series of parallel, longitudinal ridges and valleys, said emitter plate having an outer perimeter, and said emitter plate having no openings therethrough; and at least one electric heating element positioned in said heating cavity beneath said emitter plate; wherein said housing bottom wall and said heating cavity bottom wall have no openings therethrough; said outer perimeter of said emitter plate is positioned on or extends beyond said outer perimeter of said upper end of said module housing such that said emitter plate covers and closes said upper ends of said heating cavity and said module housing such that said upper end of said heating cavity is at least 99% closed to air flow out of or into said upper end of said heating cavity; said emitter plate and said module housing are closed to flow from said upper emitting surface of said emitter plate into said heating cavity of fat and water falling onto said upper emitting surface from said food; and each longitudinal end of each of said longitudinal ridges and valleys of said upper emitting surface of said emitter plate extends at least as far as said outer perimeter of said upper end of said module housing so that fat and water which falls onto said upper emitting surface from said food is delivered by said longitudinal ridges and valleys to a location outside of said module housing. 2. The module of claim 1 wherein said module housing is at least 99% closed to air flow into or out of said heating cavity. 3. The module of claim 1 wherein said upper end of said heating cavity beneath said emitter plate has an area of A in 2 and a total volume of said heating cavity beneath said emitter plate is not more than (1.5×A) in 3 . 4. The module of claim 1 further comprising a food support grate which is positionable on said emitter plate, said food support grate having a food support surface which is spaced above said upper emitting surface of said emitter plate. 5. The module of claim 4 wherein: said food support grate comprises a plurality of food support ribs having upper surfaces and bottom portions; said food support surface comprises said upper surfaces of said food support ribs; said bottom portions of food support ribs are positioned in said valleys of said upper emitting surface when said food support grate is positioned on said emitter plate; and, when said food support grate is positioned on said emitter plate, flow channels for fat and water falling onto said upper emitting surface from said food are defined in said valleys of said upper emitting surface beneath said bottom portions of said food support ribs. 6. The module of claim 4 wherein, at a highest heat setting of said module when connected to a standard US 120 volt, 1800 watt electrical outlet, an average heat flux for a total cooking area at said food support surface of at least 7.5 kW/m 2 is produced. 7. The module of claim 1 wherein each of said longitudinal ends of each of said longitudinal ridges and valleys of said upper emitting surface extends beyond said outer perimeter of said upper end of said module housing. 8. The module of claim 1 further comprising at least one layer of insulating material in said bottom gap and in said upwardly extending annular gap. 9. The module of claim 1 wherein at least one reflective radiation barrier surface is provided in said heating cavity beneath said heating element. 10. The module of claim 1 wherein: a lateral cross-sectional shape of a bottom surface of said emitter plate comprises downwardly projecting corrugations which correspond to said alternating series of parallel, longitudinal ridges and valleys of said upper emitting surface of said emitter plate and said upper end of said housing outer side wall has corrugations formed therein in which said downwardly projecting corrugations of said bottom surface of said emitter plate are received. 11. The module of claim 10 wherein said upper end of said heating cavity side wall has corrugations formed therein in which said downwardly projecting corrugations of said bottom surface of said emitter plate are received. 12. The module of claim 11 wherein: said module further comprises a layer of insulating material in said upwardly extending annular gap and an upper end of said layer of insulating material in said upwardly extending annular gap has corrugations formed therein in which said downwardly projecting corrugations of said bottom surface of said emitter plate are received. 13. The module of claim 10 wherein said outer perimeter of said upper end of said module housing and said outer perimeter of said emitter plate are each circular, each rectangular, or each oval and said emitter plate is removably positioned on said upper end of said module housing. 14. An apparatus for grilling a food product comprising: a grill base housing having an interior cavity with an interior bottom; a lid for opening and closing said grill base housing; a heating module for radiating heat energy, said heating module being positioned at least partially within said interior cavity of said grill base housing above said interior bottom of said interior cavity, said heating module comprising an emitter plate having an upper emitting surface; and a food support grate which is positionable on said emitter plate, said food support grate having a food support surface which is spaced above said upper emitting surface of said emitter plate, wherein said heating module further comprises a module housing having a module heating cavity therein, said module housing having a module housing bottom wall and an upwardly extending module housing side wall, said module heating cavity having a module heating cavity bottom wall and an upwardly extending module heating cavity side wall, said module heating cavity bottom wall being positioned above said module housing bottom wall to form a module bottom gap between said module heating cavity bottom wall and said module housing bottom wall, said module heating cavity side wall laterally surrounds said module heating cavity, said module housing side wall laterally surrounds and is spaced apart from said module heating cavity side wall to form an upwardly extending module annular gap between said module housing side wall and said module heating cavity side wall, said upwardly extending module annular gap laterally surrounds said module heating cavity, a