Apparatus and method for decreasing flow noise in ring-type joints

We claim: 1. A gasket assembly ( 120 ), comprising: a semi-compliant ring seal ( 100 ) comprising: an annular sealing body ( 102 ) comprising an I-shaped cross section; an annular outer seal portion ( 106 ) disposed on and defining an outer edge of the annular sealing body ( 102 ); an annular inner seal portion ( 108 ) disposed on and defining an inner edge of the annular sealing body ( 102 ); and a frustum of a frustoconical cross-section of the inner seal portion is directly connected to an annular surface-defining the central bore and axially faces towards the central bore; and a ring joint gasket ( 12 ) having an inner surface ( 13 ) that engages the annular outer seal portion ( 106 ) of the ring seal ( 100 ), wherein the ring joint gasket is insertable into a flange of a ring-type joint, and wherein the ring joint gasket comprises an overall axial height that is substantially larger than an overall axial height of the ring seal. 2. The gasket assembly ( 120 ) of claim 1 , wherein the annular sealing body ( 102 ) comprises a width (W) less than a width of at least one of the annular outer seal portion ( 106 ) and annular inner seal portion ( 108 ). 3. The gasket assembly ( 120 ) of claim 1 , wherein the annular sealing body ( 102 ) comprises a width (W) less than a width of both the annular outer seal portion ( 106 ) and the annular inner seal portion ( 108 ). 4. A method of forming a gasket assembly, comprising the steps of: providing a ring joint gasket having an inner surface; inserting a semi-compliant ring seal into the ring joint gasket, wherein the ring seal comprises: an annular sealing body comprising an I-shaped cross section; an annular outer seal portion disposed on and defining an outer edge of the annular sealing body; an annular inner seal portion disposed on and defining an inner edge of the annular sealing body; and a frustum of a frustoconical cross-section of the inner seal portion is directly connected to an annular surface defining the central bore and axially faces towards the central bore; and engaging the inner surface of the ring joint gasket with the annular outer seal portion of the ring seal, wherein the ring joint gasket comprises an overall axial height that is substantially larger than an overall axial height of the ring seal. 5. The method of forming a gasket assembly of claim 4 , comprising the step of: inserting the ring joint gasket into a flange of a ring-type joint. 6. The method of forming a gasket assembly of claim 4 , comprising the step of forming the annular sealing body with a width less than a width of at least one of the annular outer seal portion and annular inner seal portion. 7. The method of forming a gasket assembly of claim 4 , comprising the steps of forming the annular sealing body with a width less than a width of both the annular outer seal portion and the annular inner seal portion. 8. The method of forming a gasket assembly of claim 4 , comprising the step of inserting the ring joint gasket into a flowmeter flange. 9. The method of forming a gasket assembly of claim 4 , comprising the step of compressing the ring seal in an annular gap defined by the ring joint gasket and a flange. 10. The method of forming a gasket assembly of claim 9 , wherein the ring seal substantially fills the annular gap.