A DEF system for use with an internal combustion engine, the DEF system including a primary flowpath extending between a first inlet and a first outlet, where the first inlet is open to and configured to receive exhaust gasses from the internal combustion engine. The DEF system also includes a secondary flowpath including a second inlet open to the primary flowpath downstream of the first inlet and upstream of the first outlet, a second outlet open to the primary flowpath downstream of the secondary inlet and upstream of the first outlet, and an injector assembly configured to inject DEF into the secondary flowpath.

The present disclosure is directed to a natural-based liquid composition for use with electronic vaporizing devices. The present disclosure is also directed to electronic vaporizing devices for using such composition. In one embodiment, the liquid compositions are water-based and are substantially free of propylene glycol and vegetable glycerin. In a preferred embodiment, the compositions may be augmented to include additives such as medicines, wellness elements, supplements, recreational elements, and natural elements performing the role of emulsifiers. The present disclosure is also directed to electronic vaporizing devices for vaporizing a natural-based liquid composition. The electronic vaporizing device may include the functionality to create specified or custom mixtures of a vaporizable material for the vaporizing thereof.

A DEF system for use with an internal combustion engine, the DEF system including a primary flowpath extending between a first inlet and a first outlet, where the first inlet is open to and configured to receive exhaust gasses from the internal combustion engine. The DEF system also includes a secondary flowpath including a second inlet open to the primary flowpath downstream of the first inlet and upstream of the first outlet, a second outlet open to the primary flowpath downstream of the secondary inlet and upstream of the first outlet, and an injector assembly configured to inject DEF into the secondary flowpath.

A spray disk includes multiple nozzles at an outer perimeter of the spray disk, a center hole, and multiple partitions. The partitions are arranged around the center hole and have the center hole as an inner perimeter. Each partition includes an air inlet to receive compressed air, a liquid tank to store a liquid, and a corresponding nozzle from which to spray the liquid with the compressed air. The spray disk can be used in an automatic makeup machine.

An apparatus for supplying chemical liquid may include a gantry, a chemical liquid supply member providing a chemical liquid onto a substrate, and a moving device supporting the chemical liquid supply member and moving along the gantry. The moving device may include a moving member, load supporting members and absorbing members. The moving member may support one side of the chemical liquid supply member and may run over the gantry. The moving member may cover an upper face, a first side and a second side of the gantry. The load supporting members may support a load applied to the moving member and the gantry while maintaining a substantially constant distance between the moving member and the gantry. The absorbing members may absorb an impulsive load or an impulsive force applied to the moving member and/or the gantry when the moving member deviates from a moving path provided by the gantry.

A fluid filling apparatus for filling containers with a fluid is provided. An ultrasonic frequency is used to vibrate a filling nozzle between successive container filling cycles. The vibrations break a liquid string filament formed at a discharge end of the filling nozzle at the end of each filling cycle. Methods and a fluid filling nozzle for filling containers with a fluid are also provided.

Systems and methods described herein employ focused acoustic energy applied to a reservoir containing a fluid to eject a fluid sample from the fluid sample reservoir, e.g. to an inlet of an analytical device. In many embodiments, the ejected fluid sample traverses an air gap separating the inlet of the analytical device from an upper surface of the fluid in the fluid sample reservoir. In many embodiments, the ejected fluid sample comprises one or more droplets ejected from the fluid sample reservoir, which can contain particles suspended in the fluid sample.

In various embodiments, an apparatus can comprise one or more integrated mesh membranes operable to vibrate based on an integrated structure with a piezoelectric material. The integrated mesh membrane can be implemented in an atomizer, which can be constructed as a monolithic vibrating mesh atomizer. A portable vibrating mesh atomizer can be implemented in a number of applications including, but not limited to, a vaping device or portable liquid medicine delivery system. Additional apparatus, systems, and methods are disclosed.

A powder layer composite includes a base and a powder layer having a thickness of 100 μm or less and disposed on the base. An average of a total value of a number of powder aggregates having a long diameter of 500 μm or greater and a number of pinholes having a long diameter of 500 μm or greater, in any of a plurality of different regions of 20 mm×20 mm on a surface of the powder layer, is 0.2 pieces/cm.sup.2 or less.

Methods and devices for atomizing a fragrant liquid can use a reservoir that receives a volume of a base liquid. One or more drops of a substance are added to the base liquid to form a volume of an aromatic liquid. A vaporizer atomizes the aromatic liquid, forming a mist that is emitted from the device. The device allows a user to customize the blend of substances that are used to form the aromatic liquid.