Introduced here are systems for customized formulation and production of cleaning products and associated methods for using those systems. A system may include a computer-implemented platform (also referred to as a formulation platform or production platform) that is communicatively connected to an interactive dispensing machine responsible for making cleaning products. An individual or company may be permitted to select, create, or modify formulas via the production platform, while the interactive dispensing machine can produce cleaning products in accordance with those formulas.

A method of forming and filling a container. The method includes the steps of placing a preform in fluidic communication with an outlet of an injection device of a forming station and forming a container by expanding the preform during a forming step, wherein a forming liquid is injected into the preform through the outlet to expand the preform into the container. The forming liquid is a cleanable liquid. The method further includes a step of transferring the formed container to a concentrate filling station, separate from the forming station and a step of filling the concentrated liquid in the container already containing the cleanable liquid. The step of filling the concentrated liquid is performed in the concentrate filling station.

A method and system of transferring matter through a sealed container during a bottling process are provided. The method includes accessing a headspace of the filled and sealed container by creating at least one opening. An inert gas is provided within the headspace while allowing O.sub.2 to exit from the headspace until substantially all of the O.sub.2 has been flushed out of the headspace. The headspace is then pressurized by continuing to direct the inert gas into the headspace after it has been flushed of O.sub.2. The at least one opening of the container is then sealed while the headspace is under pressure. The filled and sealed container can be a hot-filled container.

A system for deaeration of constituents of a liquid product blend includes a first liquid stream supply system and a second liquid stream supply system. A control system is configured to: (i) monitor flow of the first liquid and responsively/automatically control flow of the first deaeration gas in order to achieve a first target ratio of first deaeration gas to first liquid; and/or (ii) monitor flow of the second liquid and responsively/automatically control flow of the second deaeration gas in order to achieve a second target ratio of second deaeration gas to second liquid; and/or (iii) monitor a dissolved oxygen level of (a) the first liquid, at a location downstream of injection of the first deaeration gas, and (b) a combined liquid formed by mixing the first liquid and the second liquid, and to adjust the system based upon the dissolved oxygen level of the combined liquid.

The invention relates to a system for introducing an additive into a container (4) partially filled with a main liquid material. It comprises an automated conveyor for transporting the container (4) along a straight horizontal trajectory (T) at a substantially constant container speed (Vc). It further comprises a static microdoser (6) having a nozzle (9) from which at least one jet (8) of an additive issues upon passage of an opening (7) of the container (4). The system is configured to introduce a given mass of additive into the container. The nozzle of the microdoser (6) is inclined relative to a vertical direction that is perpendicular to the trajectory (T). The inclination of the nozzle, the number, the shape and the speed (Vj) of the at least one jet, the mass of additive, and the container speed (Vc) are configured such that the specific kinetic energy of the impact of the at least one jet on the free surface of the main liquid material is less than 3000 mJ/m.sup.2.

One embodiment of the present invention provides an apparatus for processing sealed plastic containers having a first headspace pressure. The apparatus may include: an open entry port or tunnel for continuously receiving containers; a sanitizer configured to sanitize outside surfaces of the received containers; a perforator configured to perforate or open a cap or seal of the containers within the apparatus; a sealer configured to seal the perforation or opening formed in the cap or seal of the containers; an open exit port of tunnel for continuously exiting the processed containers; and a conveyor system configured to transporting or convey the containers from the open entry port or tunnel, through and within the apparatus, to the open exit port or tunnel and away from the sanitized environment of the apparatus. The apparatus may be further configured to maintain a sanitized environment within the apparatus, perforator, and/or sealer.

Introduced here are systems for customized formulation and production of cleaning products and associated methods for using those systems. A system may include a computer-implemented platform (also referred to as a formulation platform or production platform) that is communicatively connected to an interactive dispensing machine responsible for making cleaning products. An individual or company may be permitted to select, create, or modify formulas via the production platform, while the interactive dispensing machine can produce cleaning products in accordance with those formulas.

Introduced here are systems for customized formulation and production of cleaning products and associated methods for using those systems. A system may include a computer-implemented platform (also referred to as a formulation platform or production platform) that is communicatively connected to an interactive dispensing machine responsible for making cleaning products. An individual or company may be permitted to select, create, or modify formulas via the production platform, while the interactive dispensing machine can produce cleaning products in accordance with those formulas.