Variable air cooling system for data centers

What is claimed is: 1. A method for cooling air within an enclosure, wherein the enclosure comprises a cooling system and a remaining portion of the enclosure that is external to the cooling system, wherein the cooling system comprises a cooling mechanism for cooling air in the cooling system, a first inlet through which air outside the enclosure enters the cooling system, a second inlet through which recycled air flows from the remaining portion of the enclosure into the cooling system, and an outlet through which air flows from the cooling system into the remaining portion of the enclosure, wherein the first inlet, the second inlet, and the outlet are different openings, in an exterior bounding surface of the cooling system, for air flow and are physically separated from one another, said method comprising: monitoring, by one or more processors of a data processing system, an outside air temperature of air entering the cooling system from outside the enclosure; monitoring, by the one or more processors, a blowing air temperature of air in the cooling system at the outlet of the cooling system; and controlling, by the one or more processors, the first inlet to be fully open or fully closed, in dependence on the monitored outside air temperature, to control whether air from outside the enclosure enters or does not enter, respectively, the cooling system; controlling, by the one or more processors, the second inlet by adjusting an amount of opening of the second inlet, in dependence on the monitored blowing air temperature, to control a flow rate of recycled air entering the cooling system from the remaining portion of the enclosure; and controlling, by the one or more processors, a valve in a secondary water circuit of the cooling mechanism by adjusting an amount of opening of the valve, in dependence on the monitored outside air temperature. 2. The method of claim 1 , wherein a specified first temperature is less than a specified second temperature and the specified second temperature is less than a specified third temperature; wherein said controlling the first inlet comprises either (i) determining that the monitored outside air temperature is less than or equal to the third temperature and in response controlling the first inlet to be fully open or (ii) determining that the monitored outside air temperature is greater than the third temperature and in response controlling the first inlet to be fully closed; wherein said controlling the second inlet comprises (i) determining that the monitored blowing air temperature is less than the first temperature and in response controlling the second inlet to be partially open, (ii) determining that the monitored blowing air temperature is equal to or greater than the first temperature and less than or equal to the third temperature and in response controlling the second inlet to be fully closed, or (iii) determining that the monitored blowing air temperature is greater than the third temperature and in response controlling the second inlet to be fully open; and wherein said controlling the valve comprises (i) determining that the monitored outside air temperature is less than or equal to the second temperature and in response controlling the valve to be fully closed, or (ii) determining that the monitored outside air temperature is greater than the second temperature and less than or equal to the third temperature and in response controlling the valve to be partially open, or (iii) determining that the monitored outside air temperature is greater than the third temperature and in response controlling the valve to be fully open. 3. The method of claim 2 , wherein said controlling the second inlet comprises: determining that the monitored blowing air temperature is less than the first temperature, and in response (i) determining the amount of opening of the second inlet from a specified monotonically decreasing function of temperature in a temperature range from the first temperature to the second temperature and (ii) controlling the second inlet to be partially open in accordance with the determined amount of opening of the second inlet. 4. The method of claim 2 , wherein said controlling the valve comprises: determining that the monitored outside air temperature is greater than the second temperature and less than or equal to the third temperature and in response (i) determining the amount of opening of the valve from a specified monotonically increasing function of temperature in a temperature range from the second temperature to the third temperature and (ii) controlling the valve to be partially open in accordance with the determined amount of opening of the valve. 5. The method of claim 1 , wherein said controlling the first inlet, said controlling the second inlet, and said controlling the valve are performed simultaneously. 6. The method of claim 1 , said method further comprising: monitoring, by the one or more processors, a humidity of the air that has exited the cooling system at the outlet; and controlling, by the one or more processors, operation of a humidifier in the cooling system to control a humidity of air in the cooling system in dependence on the monitored humidity of the air that has exited the cooling system at the outlet. 7. A data processing system comprising one or more processors, a memory coupled to the one or more processors, and at least one computer readable hardware storage device coupled to the one or more processors, said at least one storage device containing program code which, upon being executed by the one or more processors via the memory, implements a method for cooling air within an enclosure, wherein the enclosure comprises a cooling system and a remaining portion of the enclosure that is external to the cooling system, wherein the cooling system comprises a cooling mechanism for cooling air in the cooling system, a first inlet through which air outside the enclosure enters the cooling system, a second inlet through which recycled air flows from the remaining portion of the enclosure into the cooling system, and an outlet through which air flows from the cooling system into the remaining portion of the enclosure, wherein the first inlet, the second inlet, and the outlet are different openings, in an exterior bounding surface of the cooling system, for air flow and are physically separated from one another, said method comprising: monitoring, by the one or more processors, an outside air temperature of air entering the cooling system from outside the enclosure; monitoring, by the one or more processors, a blowing air temperature of air in the cooling system at the outlet of the cooling system; and controlling, by the one or more processors, the first inlet to be fully open or fully closed, in dependence on the monitored outside air temperature, to control whether air from outside the enclosure enters or does not enter, respectively, the cooling system; controlling, by the one or more processors, the second inlet by adjusting an amount of opening of the second inlet, in dependence on the monitored blowing air temperature, to control a flow rate of recycled air entering the cooling system from the remaining portion of the enclosure; and controlling, by the one or more processors, a valve in a secondary water circuit of the cooling mechanism by adjusting an amount of opening of the valve, in dependence on the monitored outside air temperature. 8. The data processing system of claim 7 , wherein a specified first temperature is less than a specified second temperature and the specified second temperature is less than a specified third temperature; wherein said controlling the first inlet comprises either (i) determining that the monitored outside air temperature is less