The present invention relates to a membrane-based piston pump (400) for pumping a liquid product. The pump is provided with a device (426) for maintaining a pre-defined hydraulic fluid volume in the pump. The device comprises an axle element (440) and a bushing element (432). The invention further relates to a method for pumping a liquid product in a pump. Furthermore, the invention relates to a homogenizer provided with a membrane-based piston pump.

This invention relates to an energy generating system and method, particularly to a fluid actuated energy generating system and method employing multifarious mechanisms to produce energy. The system comprises first and second tower structures; means operable to displace fluid in the first tower structure, and means operable in response to fluid displaced from the first tower structure for displacing fluid in the second tower structure. The system also comprises means operable in response to fluid displaced from the second tower structure for generating energy; means for collecting fluid displaced from the second tower structure for return to the second tower structure; and means for receiving, in the first and second tower structures, fluid for maintaining a fluid level for operation of the system.

A hydraulic system is provided to reduce a dead volume when pressurizing gas. The system includes a gas source, a gas output, a pressure vessel coupled to the gas source and the gas output, a hydraulic system that forces hydraulic fluid into the pressure vessel from the gas source to compress gas, and an overflow tank that receives overflow of hydraulic fluid once all gas has been expelled from the pressure vessel via the gas output.

A reciprocating compressor of the disclosure includes a cylinder, a piston, a space for compressing gas, a discharge port for discharging the compressed gas from the space, a discharge valve, and a supplying port for supplying liquid that is different in kind from the gas. The cylinder has an axis extending in a direction of gravity. The piston is disposed to be reciprocable along the axis inside the cylinder. The space is constituted above the piston by being surrounded by the piston and an inner peripheral surface of the cylinder. The inner peripheral surface of the cylinder includes a straight portion and a throttle portion. The throttle portion is constituted such that an inner diameter of the cylinder decreases toward the discharge valve.

The invention provides an apparatus for compressing a first fluid. The apparatus comprises a compressor piston comprising a piston cylinder and a piston assembly slidably mounted therein. The piston assembly comprises first and second spaced apart piston members defining a space therebetween. The space is configured to contain a second fluid used to cause compression of the first fluid. The piston assembly further comprises means for feeding second fluid to the space between the first and second piston members.

A membrane-based piston pump (400) is used for pumping a liquid product. The pump is provided with a device (426) for maintaining a pre-defined hydraulic fluid volume in the pump. The device includes an axle element (440) and a bushing element (432). A method for pumping a liquid product in a pump may use the membrane-based piston pump. A homogenizer may include the membrane-based piston pump.

This invention relates to an energy generating system and method, particularly to a fluid actuated energy generating system and method employing multifarious mechanisms to produce energy. The system comprises first and second tower structures; means operable to displace fluid in the first tower structure, and means operable in response to fluid displaced from the first tower structure for displacing fluid in the second tower structure. The system also comprises means operable in response to fluid displaced from the second tower structure for generating energy; means for collecting fluid displaced from the second tower structure for return to the second tower structure; and means for receiving, in the first and second tower structures, fluid for maintaining a fluid level for operation of the system.

A reciprocating compressor of the disclosure includes a cylinder, a piston, a space for compressing gas, a discharge port for discharging the compressed gas from the space, a discharge valve, and a supplying port for supplying liquid that is different in kind from the gas. The cylinder has an axis extending in a direction of gravity. The piston is disposed to be reciprocable along the axis inside the cylinder. The space is constituted above the piston by being surrounded by the piston and an inner peripheral surface of the cylinder. The inner peripheral surface of the cylinder includes a straight portion and a throttle portion. The throttle portion is constituted such that an inner diameter of the cylinder decreases toward the discharge valve.

The mechanical liquid piston slow expansion compressor (1) comprises a liquid cylinder (8) which pivots about a tilt axis (9) and into which a hydraulic piston (10) translates, which is fixedly secured to a connecting rod (11) connected to a crank (26) of a crankshaft (24), the axis of rotation of which is parallel to the tilt axis (9), while piston guiding means (23) maintain the connecting rod (11) and the hydraulic piston (10) always parallel to the liquid cylinder (8), these two latter forming a variable hydraulic volume (12) filled with a working liquid (13) which communicates with a gas and liquid reservoir (14) in which heat exchange and accumulation means (16) are housed, said reservoir (14) and said liquid (13) forming a variable pneumatic volume (2) in which a working gas (5) is compressed or expanded.