Abstract: A compressor and waste heat recovery system is disclosed in which mechanical work from a prime mover along with work generated from the waste heat recovery system are used to operate the compressor. A gas producing system is heated by waste heat from operation of the compressor to produce a stream of gas used to drive a turbine. The turbine is in work communication with the compressor. In one embodiment the gas producing system is a metal hydride. An overrunning clutch can be used with the turbine. In one form multiple gas producing systems are used, one of which to emit gas while the other is used to receive and capture the emitted gas.

Abstract: An Enhanced Ethernet Network Interface Card (EENIC) interfaces with a host and a network. The EENIC includes an internal network interface controller (NIC), a field programmable array (FPGA) in electrical communication with the internal network interface controller, and a peripheral component interconnect express (PCIe) controller, in independent electrical communication with the field programmable array or the internal network interface controller. The FPGA is configured to intercept data from either the host, or from the network, or from a combination thereof. Additionally, the configured interception is undetected by the host, or by the network, or a combination thereof.

Abstract: An Enhanced Ethernet Network Interface Card (EENIC) interfaces with a host and a network. The EENIC includes an internal network interface controller (NIC), a field programmable array (FPGA) in electrical communication with the internal network interface controller, and a peripheral component interconnect express (PCIe) controller, in independent electrical communication with the field programmable array or the internal network interface controller. The FPGA is configured to intercept data from either the host, or from the network, or from a combination thereof. Additionally, the configured interception is undetected by the host, or by the network, or a combination thereof.

Abstract: A compressor and waste heat recovery system is disclosed in which mechanical work from a prime mover along with work generated from the waste heat recovery system are used to operate the compressor. A gas producing system is heated by waste heat from operation of the compressor to produce a stream of gas used to drive a turbine. The turbine is in work communication with the compressor. In one embodiment the gas producing system is a metal hydride. An overrunning clutch can be used with the turbine. In one form multiple gas producing systems are used, one of which to emit gas while the other is used to receive and capture the emitted gas.

Abstract: An integrated absorption refrigeration and dehumidification system includes an absorber containing an absorption solution, an after-cooler having a flow path to receive the solution and a flow path to receive a warm fluid, the flow paths being thermally coupled to separate a refrigerant from the solution, and an auxiliary heat exchanger having a flow path to receive the solution from the after-cooler and a flow path to receive a warm fluid, the flow paths being thermally coupled to separate more refrigerant from the solution. The system also includes a condenser positioned to receive and cool the refrigerant from the auxiliary heater, an expansion valve positioned to receive the refrigerant from the condenser, an evaporator positioned to receive the refrigerant from the expansion valve and the warm fluid from the after-cooler, and a separator to remove condensate from the warm fluid from the after-cooler or a cool fluid from the evaporator.

Abstract: A gas compression system includes a flow of compressed gas, a separator positioned to receive the flow of compressed gas and discharge a second flow of compressed gas and a flow of condensate, and a flow of compressed refrigerant. A heat exchanger is positioned to receive the flow of condensate and the flow of compressed refrigerant. The heat exchanger is arranged such that the flow of condensate cools the flow of refrigerant.

Abstract: An integrated absorption refrigeration and dehumidification system includes an absorber containing an absorption solution, an after-cooler having a flow path to receive the solution and a flow path to receive a warm fluid, the flow paths being thermally coupled to separate a refrigerant from the solution, and an auxiliary heat exchanger having a flow path to receive the solution from the after-cooler and a flow path to receive a warm fluid, the flow paths being thermally coupled to separate more refrigerant from the solution. The system also includes a condenser positioned to receive and cool the refrigerant from the auxiliary heater, an expansion valve positioned to receive the refrigerant from the condenser, an evaporator positioned to receive the refrigerant from the expansion valve and the warm fluid from the after-cooler, and a separator to remove condensate from the warm fluid from the after-cooler or a cool fluid from the evaporator.

Abstract: A gas compression system includes a flow of compressed gas, a separator positioned to receive the flow of compressed gas and discharge a second flow of compressed gas and a flow of condensate, and a flow of compressed refrigerant. A heat exchanger is positioned to receive the flow of condensate and the flow of compressed refrigerant. The heat exchanger is arranged such that the flow of condensate cools the flow of refrigerant.

Abstract: A compressor assembly including one or more compressors associated with compressor drive means. A cooling system is positioned downstream from the compressor and includes at least one air circulator, for example, a fan or a blower, and at least one heat exchanger. The air circulator is associated with a circulator variable speed drive, the speed of which can be adjusted independent of the compressor drive means. One or more sensors are associated with the circulator drive. The sensors sense desired variables and the speed of the circulator drive is adjustable in response to real-time sensed conditions.

Abstract: A gas light assembly having an electronic control system that monitors the surrounding ambient light conditions to detect the transition from a light to a dark state is disclosed. Upon detection of the transition of the ambient light to a dark state, the electronic control system opens a gas flow control valve to allow the flow of gas from a gas supply line through a mixing chamber wherein the gas is mixed with air to form a combustible gas mixture that passes through a venturi tube and a burner head assembly, exiting the burner head assembly at mantels. A spark is generated to ignite the combustible gas mixture passing out of the mantels, and a sensor detects and verifies the ignition of the combustible gas mixture at the mantels so as to verify to the system that the lamp of the gas light assembly is lit during dark conditions and is unlit and the flow of gas shut off during light conditions.

Abstract: A plurality of longitudinally extending deck elements are each supported by transversely directed horizontal support rods at each end of each deck element. The rods are slidably removable through transversely aligned holes through vertical angle brackets paired to be adjacent the ends of the deck elements. The angle brackets are coupled at fixed elevations, relative to the water surface, to appropriately located pilings or bulkheads, and include a plurality of vertically spaced apart holes accepting the support rods at differing elevations. Brackets couple the end of the deck element to the corresponding support rod in a manner allowing some relative longitudinal displacement to allow for installation of the deck element as a ramp or to enable one end of the deck element to remain installed while the other end is adjusted to a different elevation.