A liquid transfer apparatus and a control method thereof are provided. The liquid transfer apparatus includes a first auxiliary cover, a second auxiliary cover, a transfer tube and a breathing pipe. The first auxiliary cover is configured to cover a container for holding a liquid to be transferred; and the second auxiliary cover is configured to cover a target container. One end of the transfer tube runs through the first auxiliary cover and the other end runs through the second auxiliary cover. One end of the breathing pipe runs through the first auxiliary cover and the other end is configured to introduce nitrogen, or an inert gas, so that the liquid in the container for holding the liquid to be transferred can be transferred to the target container through the transfer tube.

A liquid transfer apparatus and a control method thereof are provided. The liquid transfer apparatus includes a first auxiliary cover, a second auxiliary cover, a transfer tube and a breathing pipe. The first auxiliary cover is configured to cover a container for holding a liquid to be transferred; and the second auxiliary cover is configured to cover a target container. One end of the transfer tube runs through the first auxiliary cover and the other end runs through the second auxiliary cover. One end of the breathing pipe runs through the first auxiliary cover and the other end is configured to introduce nitrogen, or an inert gas, so that the liquid in the container for holding the liquid to be transferred can be transferred to the target container through the transfer tube.

There is disclosed a refueling system and method for simultaneously refueling the fuel tanks of multiple pieces of machinery in the field. In an embodiment, the system comprises a mobile tanker with at least one fuel supply tank configured to connect and supply a plurality of refueling hoses. Each refueling hose has an upstream end connected to a supply line from the at least one fuel supply tank. At a downstream end, each refueling hose terminates at a mechanical open-close valve which is adapted to be inserted within each receiving fuel tank being refueled. The mechanical open-close valve is suitably shaped and sized to provide a clearance fit within the neck diameter of each receiving fuel tank being refueled, and has a buoyant body for mechanically actuating the mechanical open-close valve.

According to some embodiments, a bottle is disclosed. The bottle includes a main storage area, a dosage storage chamber, and a dispensing neck. The dosage storage chamber is coupled to the main storage area via a fluid channel. The dispensing neck extends from the dosage storage chamber for dispensing a content of the bottle. In a case that the dispensing neck is positioned parallel with the ground, the content of the bottle in the dosage storage chamber will not flow into the dispensing neck.

A fuel-additive dispensing bottle used to dispense a liquid fuel additive into a capless fuel-tank system having a self-sealing mechanism triggered by tabs, the bottle having: a first neck having a circumference, an exterior surface, and an outside diameter between approximately 0.750 inches to approximately 1.19 inches; a first lip having a circumference, the first lip connected to a first distal end of the first neck, the first lip defining screw-cap threading configured for use with a capless fuel-tank system having a self-sealing mechanism triggered by tabs, wherein sections of the screw-cap threading are disrupted with a plurality of substantially planar thread disruptions, the plurality of substantially planar thread disruptions being positioned at regular intervals on the threading; the first neck and first lip configured for insertion into a capless fuel system having a self-sealing mechanism triggered by tabs; the first lip describing an orifice configured to allow fluid flow exit therefrom; a first fluid-holding and measuring chamber, wherein the first chamber has at least one visible fixed marking indicating a specified volume of fluid within the first chamber; a second fluid-holding and measuring chamber, wherein the second chamber has at least one visible fixed marking indicating a specified volume of fluid within the second chamber; the first chamber having a greater volume than the second chamber; a fluid conduit that provides a fluid-flow path from the first chamber to a side-fluid-flow entry orifice on the first neck, the fluid conduit having three portions: a first curved distal-end portion, a body portion, and a second curved distal-end portion, wherein the fluid-conduit body portion has a longitudinal axis that is substantially adjacent to and substantially parallel to at least 70% of a longitudinal length of an exterior side-edge portion of the first chamber, wherein the fluid-conduit first curved distal-end portion curves 80 to 100 relative to the fluid-conduit linear-body portion longitudinal axis, wherein the fluid-conduit second curved distal-end portion curves 80 to 100 relative to the fluid-conduit linear-body portion longitudinal axis, the fluid-conduit first curved distal-end portion being connected to a side-edge base portion of the first chamber and configured to allow fluid flow out of the first chamber and into the fluid-conduit first curved distal-end portion; the fluid-conduit second curved distal-end portion connected to the first neck at a side-fluid-flow entry orifice and configured to allow fluid flow out of fluid-conduit second curved distal-end portion and into the first neck; the second chamber connected to a secon

A fuel-additive dispensing bottle used to dispense a liquid fuel additive into a capless fuel-tank system having a self-sealing mechanism triggered by tabs, the bottle having: a first neck having a circumference, an exterior surface, and an outside diameter between approximately 0.750 inches to approximately 1.19 inches; a first lip having a circumference, the first lip connected to a first distal end of the first neck, the first lip defining screw-cap threading configured for use with a capless fuel-tank system having a self-sealing mechanism triggered by tabs, wherein sections of the screw-cap threading are disrupted with a plurality of substantially planar thread disruptions, the plurality of substantially planar thread disruptions being positioned at regular intervals on the threading; the first neck and first lip configured for insertion into a capless fuel system having a self-sealing mechanism triggered by tabs.

According to some embodiments, a bottle is disclosed. The bottle includes a main storage area, a dosage storage chamber, and a dispensing neck. The dosage storage chamber is coupled to the main storage area via a fluid channel. The dispensing neck extends from the dosage storage chamber for dispensing a content of the bottle. In a case that the dispensing neck is positioned parallel with the ground, the content of the bottle in the dosage storage chamber will not flow into the dispensing neck.

According to some embodiments, a bottle is disclosed. The bottle includes a main storage area, a dosage storage chamber, and a dispensing neck. The dosage storage chamber is coupled to the main storage area via a fluid channel. The dispensing neck extends from the dosage storage chamber for dispensing a content of the bottle. In a case that the dispensing neck is positioned parallel with the ground, the content of the bottle in the dosage storage chamber will not flow into the dispensing neck.