A rotor system for generating kinetic energy by expanding an unbalanced torque by means of material energy is provided. The rotor has a horizontal rotating shaft and a plurality of sets of radiating members, and each of radiating members combines with a swingable mass and a slidable member that are combined with each other by a transmission system. The slidable member has two containers, each with an opening for holding the substances in the opposite direction, and after the substances are injected into a specific orientation, due to the total weight being greater than the swingable mass that plus the inclination and gravity, which causes the swingable mass to be swung at one hundred and eighty degrees. Therefore, an outer ring system and an inner ring system both generate the torsion toward the running direction so that the entire rotor system generates good operating kinetic energy.

A turbine for a power plant unit for a hybrid power plant is arranged in a turbine housing in which a flow channel for a compressible medium is arranged. A drive shaft and at least one output impeller are arranged in the flow channel, the output impeller containing an output shaft for operating a generator, wherein the output impeller is connected in a rotationally fixed manner to the output shaft. The drive shaft is not connected to the output shaft.

A turbine for a power plant unit for a hybrid power plant is arranged in a turbine housing in which a flow channel for a compressible medium is arranged. A drive shaft and at least one output impeller are arranged in the flow channel, the output impeller containing an output shaft for operating a generator, wherein the output impeller is connected in a rotationally fixed manner to the output shaft. The drive shaft is not connected to the output shaft.

An electricity generation system includes a pneumatic generator, an air compressor, a battery module, a control module, a gas ejection module, an output circuit, a loopback circuit, and a switch. The control module controls the battery module to supply power to the air compressor, so that the air compressor is activated to generate and store compressed air in the gas cylinder. The control module controls the gas ejection module to allow the compressed air stored in the gas cylinder to enter the pneumatic generator so that the pneumatic generator generates electrical energy. The output circuit is connected to the pneumatic generator and the device to be powered. The loopback circuit connects the pneumatic generator and the battery module. The electrical energy generated by the pneumatic generator supplies the power supply device or is stored in the battery module when the switch is turned on by the control module.

A gas turbine engine in which working gases are provided a linear path within turbine blade passageways of a power turbine in at least one dimension prior to the turning of working gases to provide rotational power. A fan causes cooling air to flow through turbine blade passageways that are not, at the time in the cycle of revolution of the power turbine, receiving a flow of working gases. After exiting said turbine blade passageways, said cooling air mixes with spent working gases, lowering the temperature of the exhaust.

A gas turbine engine includes a static structure which includes a first fluid passage and a rotatable shaft. A bearing assembly supports the rotatable shaft relative to the static structure. The bearing assembly includes an outer race with a damper passage that extends between the static structure and the outer race. A second fluid passage extends from the damper passage to a seal.

A gas turbine engine includes a static structure which includes a first fluid passage and a rotatable shaft. A bearing assembly supports the rotatable shaft relative to the static structure. The bearing assembly includes an outer race with a damper passage that extends between the static structure and the outer race. A second fluid passage extends from the damper passage to a seal.

A device for converting the kinetic energy of molecules into useful work includes an actuator configured to move within a fluid or gas due to collisions with the molecules of the fluid or gas. The actuator has dimensions that subject it to the Brownian motion of the surrounding molecules. The actuator utilizes objects having multiple surfaces where the different surfaces result in differing coefficients of restitution. The Brownian motion of surrounding molecules produce molecular impacts with the surfaces. Each surface then experiences relative differences in transferred energy from the kinetic collisions. The sum effect of the collisions produces net velocity in a desired direction. The controlled motion can be utilized in a variety of manners to perform work, such as generating electricity or transporting materials.

A device for converting the kinetic energy of molecules into useful work includes an actuator configured to move within a fluid or gas due to collisions with the molecules of the fluid or gas. The actuator has dimensions that subject it to the Brownian motion of the surrounding molecules. The actuator utilizes objects having multiple surfaces where the different surfaces result in differing coefficients of restitution. The Brownian motion of surrounding molecules produce molecular impacts with the surfaces. Each surface then experiences relative differences in transferred energy from the kinetic collisions. The sum effect of the collisions produces net velocity in a desired direction. The controlled motion can be utilized in a variety of manners to perform work, such as generating electricity or transporting materials.

The technical field of the invention is steam turbines including a steam feed circuit based on a functional steam generator set that may be nuclear- or fossil-fuel powered, and in particular a steam feed circuit (1) of a turbine (2), comprising n main steam lines (3) and n steam admission lines (4) to the turbine, the number n of steam admission lines (4) to the turbine being strictly greater than the number n of main steam lines (3), characterized in that there are n direct steam admission lines (5) to the turbine linking the as main steam lines (3) directly to the steam admission lines (4) to the turbine.