Abstract: A method of operating a fluid sprayer includes dispersing a first fluid selected from a group consisting of larvicide, adulticide, and a barrier repellant from the fluid sprayer with a first nozzle assembly at a first volumetric flow rate, replacing the first nozzle assembly with a second nozzle assembly, and dispersing a second fluid selected from the group from the fluid sprayer with the second nozzle assembly at a second volumetric flow rate different than the first volumetric flow rate.

Abstract: A method of operating a fluid sprayer includes dispersing a first fluid selected from a group consisting of larvicide, adulticide, and a barrier repellant from the fluid sprayer with a first nozzle assembly at a first volumetric flow rate, replacing the first nozzle assembly with a second nozzle assembly, and dispersing a second fluid selected from the group from the fluid sprayer with the second nozzle assembly at a second volumetric flow rate different than the first volumetric flow rate.

Abstract: A method of operating a fluid sprayer includes supplying a first fluid selected from a group consisting of larvicide, adulticide, and a barrier repellant to a nozzle assembly at a first regulated pressure. The method further includes changing the first regulated pressure to a second regulated pressure different than the first regulated pressure. The method further includes supplying a second fluid selected from the group to the nozzle assembly at the second regulated pressure.

Abstract: A fluid sprayer includes a tank containing fluid therein and a rotary atomizer in communication with the tank to receive fluid therefrom and to atomize the fluid. The fluid sprayer also includes a blower assembly positioned upstream of the rotary atomizer for dispersing the atomized fluid from the rotary atomizer into the surroundings of the fluid sprayer and a discharge chute positioned downstream of the blower assembly into which the atomized fluid from the rotary atomizer is sprayed before being discharged upward and into the surroundings of the fluid sprayer. The rotary atomizer includes a plurality of fan blades coupled to a hub. The fan blades are operable to impart rotation to the hub in response to an airflow generated by the blower assembly flowing around the fan blades.

Abstract: A fluid sprayer includes a tank containing fluid therein and a nozzle assembly in communication with the tank to receive fluid therefrom and to atomize the fluid. The fluid sprayer also includes a blower assembly positioned upstream of the nozzle assembly for dispersing the atomized fluid from the nozzle assembly into the surroundings of the fluid sprayer and a discharge chute positioned downstream of the blower assembly into which the atomized fluid from the nozzle assembly is sprayed before being discharged vertically upward and into the surroundings of the fluid sprayer. The nozzle assembly includes at least one discharge port having a discharge axis oriented perpendicular to a direction of airflow exiting the discharge chute.

Abstract: A fluid sprayer includes a tank containing fluid therein and a rotary atomizer in communication with the tank to receive fluid therefrom and to atomize the fluid. The fluid sprayer also includes a blower assembly positioned upstream of the rotary atomizer for dispersing the atomized fluid from the rotary atomizer into the surroundings of the fluid sprayer and a discharge chute positioned downstream of the blower assembly into which the atomized fluid from the rotary atomizer is sprayed before being discharged upward and into the surroundings of the fluid sprayer. The rotary atomizer includes a plurality of fan blades coupled to a hub. The fan blades are operable to impart rotation to the hub in response to an airflow generated by the blower assembly flowing around the fan blades.

Abstract: A method of operating a fluid sprayer includes supplying a first fluid selected from a group consisting of larvicide, adulticide, and a barrier repellant to a nozzle assembly at a first regulated pressure. The method further includes changing the first regulated pressure to a second regulated pressure different than the first regulated pressure. The method further includes supplying a second fluid selected from the group to the nozzle assembly at the second regulated pressure.

Abstract: A fluid sprayer includes a tank containing fluid therein and a nozzle assembly in communication with the tank to receive fluid therefrom and to atomize the fluid. The fluid sprayer also includes a blower assembly positioned upstream of the nozzle assembly for dispersing the atomized fluid from the nozzle assembly into the surroundings of the fluid sprayer and a discharge chute positioned downstream of the blower assembly into which the atomized fluid from the nozzle assembly is sprayed before being discharged upward and into the surroundings of the fluid sprayer.

Abstract: A fluid sprayer includes a tank containing fluid therein and a nozzle assembly in communication with the tank to receive fluid therefrom and to atomize the fluid. The fluid sprayer also includes a blower assembly positioned upstream of the nozzle assembly for dispersing the atomized fluid from the nozzle assembly into the surroundings of the fluid sprayer and a discharge chute positioned downstream of the blower assembly into which the atomized fluid from the nozzle assembly is sprayed before being discharged upward and into the surroundings of the fluid sprayer.

Abstract: A bridge apparatus to transfer persons between a moving structure such as a vessel and a second structure such as an offshore installation, for example, to span gaps between work boats and fixed offshore installations such as wind turbines. The bridge comprises a platform supported by a line, the platform being moveable in a vertical direction by movement, of the line, wherein the line extends in a vertical direction from the platform to a capstan, and from the capstan to a counterweight.

Abstract: Launch and recovery apparatus (220) for launching a boat (230) into water from a supporting structure (210) such as a ship comprises a cradle (211) shaped to receive and support a boat and having a cradle axis, the cradle being moveable relative to the supporting structure between a first stowed position to a second ramp position at which the boat is typically in the water, and wherein the attitude of the axis of the cradle with respect to the water is steeper that when the boat is in the stowed positions. A movement mechanism is configured to move the cradle between the first stowed position and the second ramp position, typically having a linkage mechanism guiding the movement of the cradle into the water, which can be provided in a collapsing parallelogram arrangement which controls the change in attitude of the axis of the cradle as the cradle moves between the stowed and ramp positions.

Abstract: A bridge apparatus to transfer persons between a moving structure such as a vessel and a second structure such as an offshore installation, for example, to span gaps between work boats and fixed offshore installations such as wind turbines. The bridge comprises a platform supported by a line, the platform being moveable in a vertical direction by movement, of the line, wherein the line extends in a vertical direction from the platform to a capstan, and from the capstan to a counterweight.

Abstract: The present invention relates to a method of packaging and a packaging system for treated stents which minimize the level of exposure of the stents to oxygen, moisture and light. The package comprises two compartments, the compartments being in communication with each other via a breathable membrane.

Abstract: The present invention relates to a method of packaging and a packaging system for treated stents which minimise the level of exposure of the stents to oxygen, moisture and light. The package comprises two compartments, the compartments being in communication with each other via a breathable membrane.

Abstract: The present invention relates to a method of packaging and a packaging system for treated stents which minimise the level of exposure of the stents to oxygen, moisture and light. The package comprises two compartments, the compartments being in communication with each other via a breathable membrane.

Abstract: A sterilization process that preserves the mechanical properties of dilatation balloons and balloon catheters manufactured from polymers susceptible to the degradation reactions induced by ionizing radiation. The advantages of the sterilization process contemplated by this invention results from a reduced oxygen environment during sterilization, thereby preventing the degeneration process initiated in polymers during irradiation. Additionally, a balloon or balloon dilatation catheter sterilized by the process of the invention is provided.

Abstract: The present invention relates to a method of packaging and a packaging system for treated stents (9) which minimise the level of exposure of the stents to oxygen, moisture and light. The package comprises two compartments (2, 3), the compartments (2, 3) being in communication with each other via a breathable membrane (4).

Abstract: A package for a drug-coated stent includes a tray adapted to receive a coiled stent delivery system and a pouch adapted to receive the tray and coiled stent delivery system. The tray contains at least one recess adapted to retain an oxygen or moisture scavenger pack.

Abstract: A sterilization process that preserves the mechanical properties of dilatation balloons and balloon catheters manufactured from polymers susceptible to the degradation reactions induced by ionizing radiation. The advantages of the sterilization process contemplated by this invention results from a reduced oxygen environment during sterilization, thereby preventing the degeneration process initiated in polymers during irradiation. Additionally, a balloon or balloon dilatation catheter sterilized by the process of the invention is provided.

Abstract: A package for a drug-coated stent includes a tray adapted to receive a coiled stent delivery system and a pouch adapted to receive the tray and coiled stent delivery system.