A plasma treatment device having an electrode arrangement (3) for generating a plasma in a supplied gas stream. The electrode arrangement has at least one movably mounted electrode. The plasma is preferably a cold atmospheric pressure plasma and can be generated so as to vary in location by means of movement of the at least one electrode.

A method and apparatus for electro-hydrodynamic destruction of an aerosol. The method includes receiving air having large aerosols, greater than about 1 micron, and small aerosols, smaller than about 1 micron, and entraining the large aerosols and small aerosols within an airflow. The airflow is directed to an electric field, which causes the large aerosols to react with the electric field to accumulate an electric charge resulting in extraction of the large aerosols from the airflow. The airflow is also directed to a non-thermal plasma such that the small aerosols remain entrained in the airflow and are subject to electro-hydrodynamic (EHD) phenomena. The non-thermal plasma outputs at least one of radicals, excited species, and ionized atoms and molecules capable of reacting with the small aerosols to result in physical and/or chemical destruction of the small aerosols.

A vehicle suspension can include an adapter mounting face, a spindle rigidly mounted relative to the adapter mounting face, a wheel mounting hub including a hub body rotatably mounted on the spindle by bearings, and an adapter that spaces a brake component away from the adapter mounting face. Another vehicle suspension can include a spindle, bearings, and a wheel mounting hub rotatably mounted on the spindle by the bearings, the wheel mounting hub can include a hub body and a wheel mounting flange, the hub body and the wheel mounting flange being separate components of the wheel mounting hub. A system for adapting a vehicle suspension to different suspension capacities can include multiple wheel mounting hubs including a same hub body internal configuration configured to be rotatably mounted on the spindle by the bearings, but the wheel mounting hubs including respective different wheel mounting flanges.

Systems and apparatuses for converting nitrogen gas, such as from ambient air, into fertilizer via interaction with a controlled plasma field using low energy inputs. Mechanisms and methods for cooling splitter apparatuses during production of fertilizer from nitrogen gas. Methods of producing fertilizer from nitrogen gas, such as ambient air, via a splitter creating a plasma output, and for collecting produced fertilizer.

A vehicle suspension can include an adapter mounting face, a spindle rigidly mounted relative to the adapter mounting face, a wheel mounting hub including a hub body rotatably mounted on the spindle by bearings, and an adapter that spaces a brake component away from the adapter mounting face. Another vehicle suspension can include a spindle, bearings, and a wheel mounting hub rotatably mounted on the spindle by the bearings, the wheel mounting hub can include a hub body and a wheel mounting flange, the hub body and the wheel mounting flange being separate components of the wheel mounting hub. A system for adapting a vehicle suspension to different suspension capacities can include multiple wheel mounting hubs including a same hub body internal configuration configured to be rotatably mounted on the spindle by the bearings, but the wheel mounting hubs including respective different wheel mounting flanges.

The disclosure relates to the medical device field. In particular, the disclosure relates to a dynamically controlled plasma scalpel in combination with an imaging system to selectively remove biofilm while minimizing damage to healthy tissue. Systems and apparatuses according to the disclosure include: (1) dynamically controlled plasma scalpel, (2) biofilm imaging system, (3) computer control system, (4) three-dimensional scalpel positioning stage, and (5) biofilm detritus removal system.

Systems and methods for producing carbon-based coatings featuring diamond-like carbon (DLC) structures on the internal surfaces of cylindrical or tube-like components is disclosed. The methods feature the use of plasma-enhanced chemical vapor deposition (PECVD) to provide a generally uniform coating on the surface. Longitudinally homogeneous plasma is ignited directly inside the tube-like component. A bipolar pulse with a reverse active plasma step is used. The pressure and bias voltage are selected so as to cause the deposition of a carbon-based coating on the inner surface.

Devices and methods for generating a plasma in a liquid are provided. A low-dielectric material can be placed in contact with the liquid to form an interface a distance from an anode. A voltage can be applied across the anode and a cathode submerged in the liquid to produce the plasma. A variety of devices are provided, including for continuous operation. The devices and methods can be used to generate a plasma in a variety of liquids, for example for water treatment, hydrocarbon reformation, or synthesis of nanomaterial.

The invention solves the problem of separation of a mixture of gases with varied molecular weights. According to the invention, the separation of a gas mixture consists in that a mixture of gases with varied molecular weights in fed into the inside of the device through slots in the inlet conduit, said slots disposed near capillary tubes having negative potential, whereas the outlet channels for the heavier molecular weight gases and those for the lower molecular weight gases are separated with a shutter with holes, said shutter being cyclically closed and opened for a period of time from 0.02 to 1.5 second. A centrifuge for the separation of gases has a cylindrical chamber, a capillary-and-blade electrode with negative potential located in the axis of the chamber and embedded on a conduit that feeds the gas mixture to the separator, an annular electrode being on the positive potential of the power source and grounded, located on the centrifuge perimeter, and is provided with two magnets, permanent or electromagnets. The electrode has capillary tubes connected to tubes and to the negative terminal of the power source. At the outlet of the electrode with the heavier gas holes is a first sliding shutter with holes and at the inlet of the light gas discharge pipeline is a baffle with holes and a second sliding shutter with holes, the first and the second shutter and being connected via a sliding mechanism to a controller.

Systems and apparatuses for converting nitrogen gas, such as from ambient air, into fertilizer via interaction with a controlled plasma field using low energy inputs. Mechanisms and methods for cooling splitter apparatuses during production of fertilizer from nitrogen gas. Methods of producing fertilizer from nitrogen gas, such as ambient air, via a splitter creating a plasma output, and for collecting produced fertilizer.