Passive liquid collecting device

The invention claimed is: 1. A passive liquid collecting device, comprising: a reservoir including an outlet; multiple rigid structures disposed within the reservoir and configured to collect a liquid and direct the liquid to the outlet; porous capillary media supported by the multiple rigid structures; wherein the multiple rigid structures are arranged circumferentially around a porous tube leading to the outlet; and wherein the reservoir has a cylindrical shape, and a leg portion of at least one of the multiple rigid structures extends along a circular cross-section of the reservoir in a direction that is radial relative to the circular cross-section. 2. The passive liquid collecting device of claim 1 , wherein the porous capillary media is wrapped around at least a portion of each of the multiple rigid structures. 3. The passive liquid collecting device of claim 1 , wherein the liquid is a refrigerant. 4. The passive liquid collecting device of claim 1 , wherein the reservoir is configured for use in a microgravity environment. 5. The passive liquid collecting device of claim 1 , wherein the porous capillary media include at least one of a multilayer screen mesh, a felt, a sintered metallic powder, and a ceramic material. 6. The passive liquid collecting device of claim 1 , wherein the multiple rigid structures are arranged across 360° around the tube. 7. The passive liquid collecting device of claim 1 , wherein the multiple rigid structures are arranged across less than 360° around the tube, leaving spaces where refrigerant may enter the reservoir. 8. The passive liquid collecting device of claim 1 , wherein the liquid has a contact angle, the multiple rigid structures have a corner with a corner angle, and the sum of the contact angle and half of the corner angle is less than 90°. 9. The passive liquid collecting device of claim 1 , wherein the leg portion includes a plurality of pockets in a linear arrangement configured to facilitate liquid motion in the radial direction. 10. The passive liquid collecting device of claim 9 , wherein the porous capillary media overlies the pockets to assist in liquid flow. 11. The passive liquid collecting device of claim 1 , wherein at least one of the multiple rigid structures includes grooves at an inner corner defining an acute angle forming a trough and each trough is aligned with a hole that is in fluid communication with the outlet. 12. The passive liquid collecting device of claim 1 , wherein at least one of the multiple rigid structures includes side grooves defining acute angles. 13. The passive liquid collecting device of claim 12 , wherein the at least one of the multiple rigid structures includes corner grooves with acute angles, and the side grooves have holes in fluid communication with the corner grooves, and the corner grooves have holes in fluid communication with the outlet. 14. A thermal control loop, comprising: an evaporator in communication with a heat source; and an accumulator located downstream of the evaporator, the accumulator including: a reservoir including an outlet; multiple rigid structures disposed within the reservoir and configured to collect a liquid and direct the liquid to the outlet; porous capillary media supported by the multiple rigid structures; wherein the multiple rigid structures are arranged circumferentially around a porous tube leading to the outlet; and wherein the reservoir has a cylindrical shape, and a leg portion of at least one of the multiple rigid structures extends along a circular cross-section of the reservoir in a direction that is radial relative to the circular cross-section. 15. The thermal control loop of claim 14 , wherein the multiple rigid structures each have a pie shape and each of the multiple rigid structures are arranged circumferentially around a tube leading to the outlet. 16. The thermal control loop of claim 15 , wherein the multiple rigid structures are arranged across 360° around the tube. 17. The thermal control loop of claim 15 , wherein the multiple rigid structures are arranged across less than 360° around the tube, leaving spaces where refrigerant may enter the reservoir.