Muffler with metallic meshed rings

What is claimed is: 1. A muffler for a chiller of a vapor-compression or absorption refrigeration system, the muffler comprising: an upstream case having a fluid inlet; a downstream case connected to the upstream case at a downstream end of the upstream case, the downstream case having a fluid outlet; the upstream case having a plurality of axially adjacent outer muffler rings and a plurality of axially adjacent inner muffler rings, the outer muffler rings being axially coextensive and a radially exterior to the inner muffler rings and defining a fluid inlet passage therebetween, wherein the outer muffler rings and inner muffler rings are a metal mesh material, wherein the upstream case is a primary upstream case and the muffler includes a secondary upstream case fluidly connected to the primary upstream case proximate a downstream end of the primary upstream case, the secondary upstream case including a plurality of axially adjacent muffler rings that are a metal mesh material. 2. The muffler of claim 1 wherein one or both of the outer muffler rings and inner muffler rings are steel. 3. The muffler of claim 2 wherein one or both of the outer muffler rings and inner muffler rings are stainless steel. 4. The muffler of claim 3 wherein one or both of the outer muffler rings and inner muffler rings are SAE 304A stainless steel. 5. The muffler of claim 4 wherein one or both of the outer muffler rings and inner muffler rings are 0.008 inch wall thickness type SAE 304A stainless steel with a mesh density of twelve (12) percent and a weight of 6.23 ounces. 6. The muffler of claim 1 wherein the upstream case comprises N sets of muffler rings, the N sets of muffler rings being axially aligned and radially spaced to provide N−1 fluid passages therein, wherein N is greater than or equal to 3. 7. The muffler of claim 1 wherein the secondary muffler case comprises a plurality of the secondary upstream cases each fluidly connected to the primary upstream case proximate the downstream end of the upstream case. 8. The muffler of claim 1 wherein the secondary muffler case includes N sets of muffler rings, the N sets of muffler rings being axially aligned and radially spaced to provide N−1 fluid passages therein, wherein N is greater than or equal to 3. 9. A system comprising: a chiller comprising a muffler, the muffler comprising: an upstream case having a fluid inlet; a downstream case connected to the upstream case at a downstream end of the upstream case, the downstream case having a fluid outlet; and the upstream case having a plurality of axially adjacent outer muffler rings and a plurality of axially adjacent inner muffler rings, the outer muffler rings being axially coextensive and a radially exterior to the inner muffler rings and defining a fluid inlet passage therebetween, wherein the outer muffler rings and inner muffler rings are a metal mesh material, wherein secondary upstream case fluidly connected to the primary upstream case proximate a downstream end of the primary upstream case, the secondary upstream case including a plurality of axially adjacent muffler rings that are a metal mesh material. 10. The system of claim 9 wherein one or both of the outer muffler rings and inner muffler rings are steel. 11. The system of claim 10 wherein one or both of the outer muffler rings and inner muffler rings are stainless steel. 12. The system of claim 11 wherein one or both of the outer muffler rings and inner muffler rings are SAE 304A stainless steel. 13. The system of claim 12 wherein one or both of the outer muffler rings and inner muffler rings are 0.008 inch wall thickness type SAE 304A stainless steel with a mesh density of twelve (12) percent and a weight of 6.23 ounces. 14. The system of claim 9 wherein the upstream case comprises N sets of muffler rings, the N sets of muffler rings being axially aligned and radially spaced to provide N−1 fluid passages therein, wherein N is greater than or equal to 3. 15. The system of claim 9 wherein the secondary muffler case comprises a plurality of the secondary upstream cases each fluidly connected to the primary upstream case proximate the downstream end of the upstream case. 16. The system of claim 9 wherein the secondary muffler case includes N sets of muffler rings, the N sets of muffler rings being axially aligned and radially spaced to provide N−1 fluid passages therein, wherein N is greater than or equal to 3. 17. A method of operating a chiller system, the chiller system comprising a muffler, the muffler further comprising: an upstream case having a fluid inlet, a downstream case connected to the upstream case at a downstream end of the upstream case, the downstream case having a fluid outlet, the upstream case having a plurality of axially adjacent outer muffler rings and a plurality of axially adjacent inner muffler rings, the outer muffler rings being axially coextensive and a radially exterior to the inner muffler rings and defining a fluid inlet passage therebetween, and wherein the outer muffler rings and inner muffler rings are a metal mesh material, wherein the upstream case is a primary upstream case and the muffler includes a secondary upstream case fluidly connected to the primary upstream case proximate a downstream end of the primary upstream case, the secondary upstream case including a plurality of axially adjacent muffler rings that are a metal mesh material, the method comprising: muffling noise so that over an octave band of 80 Hz to 130 Hz, a sound pressure level is between approximately 78 dBA-Wtg and approximately 80 dBA-Wtg. 18. The method of claim 17 , wherein muffling noise over a one third octave band, from static to 1000 Hz, results in an average sound pressure level of 81.7 dBA.