The present invention discloses an ultrasound-electrode-nano-porous membrane coupling hydrogen production and sterilization system, which comprises a vessel and a plurality of hydrogen production units arranged in the vessel. The hydrogen production unit comprises a cavity, and a broadband ultrasonic generator and a circular hydrogen production electrode located in the cavity. The circular hydrogen production electrode wraps around the broadband ultrasonic generator. A bottom membrane at the bottom of the cavity is hydrophobic at the inner side and hydrophilic at the outer side, and a side membrane of the cavity is hydrophilic at the inner side and hydrophobic at the outer side and is mounted vertically or obliquely upwards by an angle of 0-45 degrees. The system has the functions of continuously and efficiently facilitating self-circulation micro-flow of a liquid system, hydrogen dissolution (as nano-bubbles), conversion from the interface to the bulk phase and dispersion of bubbles, sterilization and others. The hydrogen content in a prepared anti-bacterial functional beverage is high (3-6 ppm), wherein the diameter of hydrogen-rich nano-bubbles is distributed within the range of 20-1000 nm, and the nano-bubbles are retained for 8-36 hrs or more even in an unsealed state. The means of preparation of the present invention is simple, intelligent and efficient, the product is high in quality and green and has a health care function, waste of a lot of filled hydrogen and high-pressure energy consumption are avoided, secondary pollution of the system is prevented in processing, and food-grade requirements are met.

Compositions comprising magnesium enriched liquids re provided. Specifically, compositions comprising magnesium enriched milk and/or milk product, wherein a concentration of magnesium ions in said milk and/or milk product ranges from 8 mM to 25 mM, and methods of producing the same, are provided.

The present invention discloses an ultrasound-electrode-nano-porous membrane coupling hydrogen production and sterilization system, which comprises a vessel and a plurality of hydrogen production units arranged in the vessel. The hydrogen production unit comprises a cavity, and a broadband ultrasonic generator and a circular hydrogen production electrode located in the cavity. The circular hydrogen production electrode wraps around the broadband ultrasonic generator. A bottom membrane at the bottom of the cavity is hydrophobic at the inner side and hydrophilic at the outer side, and a side membrane of the cavity is hydrophilic at the inner side and hydrophobic at the outer side and is mounted vertically or obliquely upwards by an angle of 0-45 degrees. The system has the functions of continuously and efficiently facilitating self-circulation micro-flow of a liquid system, hydrogen dissolution (as nano-bubbles), conversion from the interface to the bulk phase and dispersion of bubbles, sterilization and others.

A method for controlling microbiological contamination in a heat exchanger while using the heat exchanger to process a food product. The method includes: while processing the food product in the heat exchanger, adding a microbiological control agent to the food product at a first location; and neutralizing at least partially the microbiological control agent by adding a neutralizing agent to the food product at a second location, the second location being downstream from the first location, at least part of the heat exchanger being between the first and second locations, the neutralizing agent being operative for reducing a chemical reactivity of the microbiological control agent in the food product. The microbiological control agent controls the microbiological contamination in the heat exchanger while the food product is processed. In some embodiments, the food product is a milk product.

The invention relates to a method for obtaining a superoxide dismutase (SOD)-concentrated protein extract having a specific activity of at least 700 UI/mg protein, said method comprising a single step of extraction from a plant selected from any species of the Plumbaginaceae family.