A method for preparing mold ripened cheese, comprising the following steps: (1). Sterilizing raw milk and cooling to obtain treated milk, inoculating the treated milk with Penicillium camemberti, Monascus sp. and Lactic acid bacteria leavening agent, fermenting until the pH value is 5.8 to 6.5, and adding chymosin to obtain curded milk; (2). placing the curded milk into a mold for molding so as to obtain a curd block; (3). brine salting or dry salt coating the curd block to ripen the curd block; the ripening method being: ripening at 20 C.-30 C. for 2-15 days, ripening at 12 C.-20 C. for 2-15 days, and ripening at 4 C.-15 C. for 10-45 days.

Disclosed is a method for improving the conversion properties and decreasing ripening time of cheese made from ultra-filtered milk and/or concentrated milk, the method comprising applying chymosin to cheese curds during the cheesemaking process.

An industrial production process for making matured hard cheese involves collecting and storing milk in a tank, separating the milk through pre-heating and centrifugation to produce cream and skimmed milk with approximately 0% fat content. The process includes eliminating spores and bacteria from the skimmed milk through bactofugation, followed by titration of the bactofugated skimmed milk. Cream recovered from the separation step is pasteurized, pre-heated to 65 C., cooled to 35 C., and added back to achieve a 2.8-3% fat content. The process continues with addition of rennet and whey starter, cooking in vats to obtain a cheese mass, molding the mass into wheels, salting the wheels, and maturing the wheels. The resulting cheese contains no preservatives and has reduced salt content.

Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.

Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.

Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.

Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.