Porous carbon, humidity control adsorbent, adsorption heat pump, and fuel cell

The invention claimed is: 1. A porous carbon characterized by comprising mesopores and micropores and having a mesopore volume of from 0.9 mL/g to 2.0 mL/g and a water vapor adsorbed amount ratio of 2.0 or higher, the water vapor adsorbed amount ratio being defined by the following expression: Water vapor adsorbed amount ratio=water vapor adsorbed amount at a relative humidity of 90%/water vapor adsorbed amount at a relative humidity of 70%. 2. The porous carbon according to claim 1 , wherein the mesopores have a pore diameter of from 3 nm to 50 nm. 3. The porous carbon according to claim 2 , wherein the mesopores have a pore diameter of from 4.5 nm to 50 nm. 4. The porous carbon according to claim 1 , wherein the water vapor adsorbed amount at a relative humidity of 70% is 50 mg/g or greater. 5. The porous carbon according to claim 1 , wherein the water vapor adsorbed amount at a relative humidity of 90% is from 300 mg/g to 700 mg/g. 6. The porous carbon according to claim 1 , wherein the micropore volume is from 0.3 mL/g to 0.7 mL/g. 7. A porous carbon characterized by comprising mesopores and micropores and having a water vapor adsorbed amount ratio of 1.8 or higher, the water vapor adsorbed amount ratio being defined by the following expression, and wherein the water vapor adsorbed amount at a relative humidity of 90% is from 512 mg/g to 700 mg/g: water vapor adsorbed amount ratio=water vapor adsorbed amount at a relative humidity of 90%/water vapor adsorbed amount at a relative humidity of 70%, wherein the mesopores have a pore diameter of from 3 nm to 50 nm, and the mesopore volume is from 0.9 mL/g to 2.0 mL/g. 8. The porous carbon according to claim 7 , wherein the water vapor adsorbed amount ratio is 2.0 or higher. 9. The porous carbon according to claim 7 , wherein the water vapor adsorbed amount at a relative humidity of 70% is 50 mg/g or greater. 10. The porous carbon according to claim 8 , wherein the water vapor adsorbed amount at a relative humidity of 70% is 50 mg/g or greater. 11. The porous carbon according to claim 7 , wherein the mesopores have a pore diameter of from 4.5 nm to 50 nm. 12. The porous carbon according to claim 7 , wherein the micropore volume is from 0.3 mL/g to 0.7 mL/g. 13. A humidity control adsorbent, characterized by using the porous carbon according to claim 1 as an adsorbent. 14. An adsorption heat pump, characterized by using a porous carbon as an adsorbent, wherein the porous carbon comprises mesopores and micropores and having a mesopore volume of from 0.9 mL/g to 2.0 mL/g and a water vapor adsorbed amount ratio of 1.8 or higher, the water vapor adsorbed amount ratio being defined by the following expression: Water vapor adsorbed amount ratio=water vapor adsorbed amount at a relative humidity of 90%/water vapor adsorbed amount at a relative humidity of 70%. 15. A fuel cell, characterized by using a porous carbon as an adsorbent, wherein the porous carbon comprises mesopores and micropores and having a mesopore volume of from 0.9 mL/g to 2.0 mL/g and a water vapor adsorbed amount ratio of 1.8 or higher, the water vapor adsorbed amount ratio being defined by the following expression: Water vapor adsorbed amount ratio=water vapor adsorbed amount at a relative humidity of 90%/water vapor adsorbed amount at a relative humidity of 70%.