One exemplary embodiment of this disclosure relates to a compressor system. The system includes a compressor and a back-flow limiting device. The back-flow limiting device has a turbine wheel and is arranged downstream of the compressor.

A cooling system with a compression cooling cycle for a working fluid that passes an expendable fluid through a warm side heat exchanger for the cooling system to cause the expendable fluid to vaporize and thus absorb heat from the working fluid by way of latent heat or enthalpy of vaporization and then running the vaporized expendable through a turbine that drives a compressor for the cooling system.

A cooling system with a compression cooling cycle for a working fluid that passes an expendable fluid through a warm side heat exchanger for the cooling system to cause the expendable fluid to vaporize and thus absorb heat from the working fluid by way of latent heat or enthalpy of vaporization and then running the vaporized expendable through a turbine that drives a compressor for the cooling system.

A cooling system with a compression cooling cycle for a working fluid that passes an expendable fluid through a warm side heat exchanger for the cooling system to cause the expendable fluid to vaporize and thus absorb heat from the working fluid by way of latent heat or enthalpy of vaporization and then running the vaporized expendable through a turbine that drives a compressor for the cooling system.

A cooling system with a compression cooling cycle for a working fluid that passes an expendable fluid through a warm side heat exchanger for the cooling system to cause the expendable fluid to vaporize and thus absorb heat from the working fluid by way of latent heat or enthalpy of vaporization and then running the vaporized expendable through a turbine that drives a compressor for the cooling system.

A data center cooling system configured to cool one or more components of a data center thereby enabling a data center to be maintained at a higher overall temperature while still providing sufficient cooling to the components housed in the data center is disclosed. By maintaining the data center at a higher overall temperature, significant operational costs are realized due to savings in power costs. The data center cooling system may include one or more turbo-expanders having a rotary turbine positioned within a turbo-expander housing in which compressed air expands and drives the rotary turbine. The cooled expanded air is heated passing through a thermal transfer system that pulls heat from the data center component. The air is further heated passing through a brake system that generates heat by applying resistance to a shaft coupled to the rotary turbine. The heated air is exhausted outside of the data center.

A data center cooling system configured to cool one or more components of a data center thereby enabling a data center to be maintained at a higher overall temperature while still providing sufficient cooling to the components housed in the data center is disclosed. By maintaining the data center at a higher overall temperature, significant operational costs are realized due to savings in power costs. The data center cooling system may include one or more turbo-expanders having a rotary turbine positioned within a turbo-expander housing in which compressed air expands and drives the rotary turbine. The cooled expanded air is heated passing through a thermal transfer system that pulls heat from the data center component. The air is further heated passing through a brake system that generates heat by applying resistance to a shaft coupled to the rotary turbine. The heated air is exhausted outside of the data center.

A heat pump circuit including a compressor that compresses a working fluid from a gas in a low pressure, low temperature first state to a high pressure, a high temperature second state. A first subflow of the working fluid is condensed into a gaseous/liquid mixture and assumes a third state by the working fluid delivering heat to a first medium. The first subflow of the working fluid is expanded and returns to a gas in the first state by absorbing heat from a second medium, whereupon the working fluid completes the cycle again. A second subflow of the compressed working fluid is expanded from the second state and the energy contents in the second subflow converted into electrical energy, whereafter the expanded working fluid is returned to the compressor after passage of the evaporator, or after expansion in the energy converter from the second to the first state.

A heat pump circuit including a compressor that compresses a working fluid from a gas in a low pressure, low temperature first state to a high pressure, a high temperature second state. A first subflow of the working fluid is condensed into a gaseous/liquid mixture and assumes a third state by the working fluid delivering heat to a first medium. The first subflow of the working fluid is expanded and returns to a gas in the first state by absorbing heat from a second medium, whereupon the working fluid completes the cycle again. A second subflow of the compressed working fluid is expanded from the second state and the energy contents in the second subflow converted into electrical energy, whereafter the expanded working fluid is returned to the compressor after passage of the evaporator, or after expansion in the energy converter from the second to the first state.

A data center cooling system configured to cool one or more components of a data center thereby enabling a data center to be maintained at a higher overall temperature while still providing sufficient cooling to the components housed in the data center is disclosed. By maintaining the data center at a higher overall temperature, significant operational costs are realized due to savings in power costs. The data center cooling system may include one or more turbo-expanders having a rotary turbine positioned within a turbo-expander housing in which compressed air expands and drives the rotary turbine. The cooled expanded air is heated passing through a thermal transfer system that pulls heat from the data center component. The air is further heated passing through a brake system that generates heat by applying resistance to a shaft coupled to the rotary turbine. The heated air is exhausted outside of the data center.