Patent ID: 11864360
Assignee: NOOTER/ERIKSEN, INC.
Field: Mechanical elements (Mechanical engineering)
Classification: CPC H  F | IPC F  H

Claim 0:
1. A method of cooling a plurality of computer processors in a data center, a supply of coolant fluid is CO2 fluid in communication with each said processor, a plurality of control valves corresponding to respective processor, each said control valve comprising a housing with a chamber therewithin, said control valve being configured to be operable in response to a change in temperature of the computer processor so as to maintain the temperature of the computer processor within a predetermined temperature range, said chamber having an inlet configured to communicate with the flow of the fluid from the processor, said chamber further having an outlet, a valve member disposed within said chamber and configured to move between a closed position in which said valve member can substantially block the flow of said fluid from said chamber to said outlet and an open position in which the fluid within said chamber can flow from the chamber via said outlet; wherein said valve member is comprised a strip of a plurality of layers of dissimilar metal with each layer having a different coefficient of thermal expansion, and wherein the housing and said valve member strip are configured to support the strip with respect to said housing for the strip to extend within said chamber so that upon the fluid within said chamber varying from a first predetermined temperature said valve member is configured to flex within said housing relative to said outlet so as to effect the opening or closing of said outlet; a compressor in fluid flow connection with a supply manifold, the compressor having an inlet and an outlet; and a mass accumulator, the said mass accumulator comprising a low pressure accumulator tank and a high pressure accumulator tank, an accumulator pump having an inlet in communication with the high pressure accumulator tank and with the inlet of the compressor, the accumulator pump further having an outlet in communication with said low pressure tank, the mass accumulator further having a controller for controlling operation of said accumulator pump:
wherein the method comprises the following steps:
a. flowing of said fluid from within said chamber of a respective control valve and to a respective processor when said valve member strip of said respective control valve is in its closed position so that the temperature of said fluid entering said chamber correlates to the temperature of its respective said processor;
b. upon the temperature of said fluid within said chamber exceeding a predetermined first temperature, effecting movement of said valve member strip from its closed position toward its open position permitting more fluid to flow into its respective said processor so as to maintain its respective processor within a desired range of operating temperatures;
c. when the said valve member strip is in its fully open position and upon the temperature of the fluid within said chamber dropping below said second temperature, said method further comprises the step of effecting movement of said valve member strip from its fully open position toward its closed position to at least partially block the flow of fluid from said chamber;
d. raising said fluid above the supercritical temperature of supercritical CO2 as said fluid flows through each said processor;
e. compressing the fluid by the compressor and directing the said compressed fluid to said plurality of processors via the supply manifold;
f. the accumulator applying pressure to the fluid at the inlet to the compressor to place the said fluid at the inlet to the compressor in a state to be above its critical pressure so that the fluid is in a liquid or supercritical state at the inlet to said compressor;
g. operating the low pressure accumulator tank at a pressure below the pressure of the fluid at the outlet of said compressor;
h. operating the high pressure accumulator tank at a pressure above the pressure at the inlet to said compressor; and
i. operating the controller to control the accumulator pump to place the pressure at the compressor inlet to be above the saturation pressure of the fluid to place the fluid at the compressor inlet in a liquid or supercritical state.