An electron generation means for generating electrons includes a rectifier circuit and a booster circuit. AC power from a power supply is passed through the rectifier circuit in advance and then flown to the booster circuit. The rectifier circuit, according to the plus/minus inversion cycle of the said AC power, blocks current flowing toward a second terminal in a state where a first terminal of the rectifier circuit has a positive potential, and current flows from the second terminal only in the state where the first terminal of the rectifier circuit has a negative potential, and thus current flows only in one direction of the alternating current. The booster circuit boosts the voltage on a primary side, and electrons are generated from one terminal on a secondary side of the booster circuit only in a state where the first terminal of the rectifier circuit has a negative potential.

A dry food mix described includes a powder mix and particulates. A powder mix contains at least 70% by weight sugars, and includes 40-70% by weight crystalline sucrose, 25-50% by weight crystalline glucose, and a releasing agent. A method described includes making a food by heating, then cooling, a dry food mix to produce the food.

A dry food mix described includes a powder mix and particulates. A powder mix contains at least 70% by weight sugars, and includes 40-70% by weight crystalline sucrose, 25-50% by weight crystalline glucose, and a releasing agent. A method described includes making a food by heating, then cooling, a dry food mix to produce the food.

A beverage nucleator system for a supercooled beverage container may include a frame for receiving a beverage container and an ultrasonic transmitter positioned therein. A convex protrusion from the ultrasonic transmitter ensures good contact and therefore good transfer of ultrasonic energy through a top surface of a closure of the beverage container, even if the beverage container is positioned within the frame at an angle to the ultrasonic transmitter. Alternatively or additionally, a packaging holder comprising a plurality of supports may be provided to ensure that the top surface of the closure is parallel with the ultrasonic transmitter.

A beverage nucleator system for a supercooled beverage container may include a frame for receiving a beverage container and an ultrasonic transmitter positioned therein. A convex protrusion from the ultrasonic transmitter ensures good contact and therefore good transfer of ultrasonic energy through a top surface of a closure of the beverage container, even if the beverage container is positioned within the frame at an angle to the ultrasonic transmitter. Alternatively or additionally, a packaging holder comprising a plurality of supports may be provided to ensure that the top surface of the closure is parallel with the ultrasonic transmitter.

A data centre (10) includes one or more controllable air circulation systems (e.g. air optimiser (11)), one or more cold aisles (15) and/or one or more hot aisles (16), one or more rows of racks (14), the data centre being so arranged that in use cooling air (18) passes, under the control of the one or more controllable air circulation systems, from a cold aisle (15) through the racks (14) and/or through the racks (14) to a hot aisle (16). An access door (20), which provides access to at least one of the aisles, is movable between an open position allowing personnel access to the aisle and a closed position. The door (20) has an aperture (25) in which is provided a controllable air intake arrangement, for example comprising a vent (17) in the form of multiple vertically extending rotatable blades (28). The width (24) of the door is wider than the width (26) of the aisle associated with the door (20), so that the width of the aperture (25) may be larger than or substantially equal to the width (26) of the aisle. Air-flow into the aisle may therefore be subjected to less of a constriction than if the door (20) and aperture (25) were narrower.

A data centre (10) includes one or more controllable air circulation systems (e.g. air optimiser (11)), one or more cold aisles (15) and/or one or more hot aisles (16), one or more rows of racks (14), the data centre being so arranged that in use cooling air (18) passes, under the control of the one or more controllable air circulation systems, from a cold aisle (15) through the racks (14) and/or through the racks (14) to a hot aisle (16). An access door (20), which provides access to at least one of the aisles, is movable between an open position allowing personnel access to the aisle and a closed position. The door (20) has an aperture (25) in which is provided a controllable air intake arrangement, for example comprising a vent (17) in the form of multiple vertically extending rotatable blades (28). The width (24) of the door is wider than the width (26) of the aisle associated with the door (20), so that the width of the aperture (25) may be larger than or substantially equal to the width (26) of the aisle. Air-flow into the aisle may therefore be subjected to less of a constriction than if the door (20) and aperture (25) were narrower.

The invention comprises a method and apparatus for forming a Cannabis product, comprising the steps of: in a first process, decreasing viscosity of a tetrahydrocannabinol stock, of at least fifty percent purity, by at least two thousand centipoise through: (1) the addition of at least one of: ethanol, butter, a fat, and an oil to form an intermediate tetrahydrocannabinol compound and (2) heating the intermediate tetrahydrocannabinol compound to at least 40° C.; in a subsequent process, further reducing viscosity of the intermediate tetrahydrocannabinol compound to less than 100 centipoise by diluting the tetrahydrocannabinol compound with water at a ratio of at least ten parts water to one part tetrahydrocannabinol stock, by at least one of mass and volume, to form a liquid THC product; and packaging the liquid THC product in a container for distribution from a manufacturing point to a point of sale.

The invention comprises a method and apparatus for forming a Cannabis product, comprising the steps of: in a first process, decreasing viscosity of a tetrahydrocannabinol stock, of at least fifty percent purity, by at least two thousand centipoise through: (1) the addition of at least one of: ethanol, butter, a fat, and an oil to form an intermediate tetrahydrocannabinol compound and (2) heating the intermediate tetrahydrocannabinol compound to at least 40° C.; in a subsequent process, further reducing viscosity of the intermediate tetrahydrocannabinol compound to less than 100 centipoise by diluting the tetrahydrocannabinol compound with water at a ratio of at least ten parts water to one part tetrahydrocannabinol stock, by at least one of mass and volume, to form a liquid THC product; and packaging the liquid THC product in a container for distribution from a manufacturing point to a point of sale.

The present invention relates to sanitization devices and methods. More particularly, the invention relates to sanitizing devices and methods that significantly reduce, deactivate or eliminate germs, bacteria and/or other pathogenic microorganisms from objects that have been placed in sanitizing in the sanitizing devices, which are sanitizing bags and sanitizing containers of the current invention, such devices include large and small containers. The device and method use germicidal electromagnetic radiation.