Abstract: Systems, computer program products, and methods are described herein for scanning and mapping entity portals to distribution processing systems. The present invention may be configured to scan an entity portal of a distribution processing system to generate responses of the entity portal to test distributions, where the entity portal is associated with an entity, and where the distribution processing system processes distributions for the entity. The present invention may be configured to receive, from the entity portal, responses of the entity portal to the test distributions, where the responses include data associated with distributions processed by the distribution processing system for the entity. The present invention may be configured to determine, based on the data, resources offered by the entity to users, an accounting hierarchy of the entity, and settlement procedures for processing distributions for the entity and generate a mapping of the entity portal to another distribution processing system.

Abstract: Disclosed is a spoonable smoothie with fibrous, non-chalky, non-gritty texture. The spoonable smoothie has more than 34% by weight of a combination of fruit and vegetable sources, a texturant, a protein source, a vitamin source, and a mineral source. In some embodiments, the spoonable smoothie may be produced via high-pressure processing or thermal processing. In some embodiments in which high-pressure processing is employed, acid whey may be used to help obtain the non-chalky, non-gritty texture. In other embodiments in which thermal processing is employed, order of ingredients may be used to help obtain the non-chalky, non-gritty texture. In those thermally processed embodiments, the texturant and the protein source may be separately hydrated to control the competition for water absorption between the texturant and the protein source.

Abstract: Disclosed is a spoonable smoothie with fibrous, non-chalky, non-gritty texture. The spoonable smoothie has more than 34% by weight of a combination of fruit and vegetable sources, a texturant, a protein source, a vitamin source, and a mineral source. In some embodiments, the spoonable smoothie may be produced via high-pressure processing or thermal processing. In some embodiments in which high-pressure processing is employed, acid whey may be used to help obtain the non-chalky, non-gritty texture. In other embodiments in which thermal processing is employed, order of ingredients may be used to help obtain the non-chalky, non-gritty texture. In those thermally processed embodiments, the texturant and the protein source may be separately hydrated to control the competition for water absorption between the texturant and the protein source.

Abstract: Methods are provided for treating high solids concentrated milk products to delay gelation of the concentrated milk products by minimizing the rate at which the viscosity of the concentrates increases during cold storage. By another approach, the methods described herein are effective to substantially reduce the viscosity of the concentrated milk products. The methods described herein advantageously increase the length of time the high solids milk concentrates remain fluid and pumpable during refrigerated shelf-life. The high solids concentrated milk products treated with the methods provided herein include about 33 to about 43 percent total solids. By one approach, the high solids concentrated milk products have a pH of about 4.6 to about 6.7, and include salt at about 0.25 to about 6 percent by weight of the concentrate.

Abstract: Methods are provided for treating high solids concentrated milk products to delay gelation of the concentrated milk products by minimizing the rate at which the viscosity of the concentrates increases during cold storage. By another approach, the methods described herein are effective to substantially reduce the viscosity of the concentrated milk products. The methods described herein advantageously increase the length of time the high solids milk concentrates remain fluid and pumpable during refrigerated shelf-life. The high solids concentrated milk products treated with the methods provided herein include about 33 to about 43 percent total solids. By one approach, the high solids concentrated milk products have a pH of about 4.6 to about 6.7, and include salt at about 0.25 to about 6 percent by weight of the concentrate.

Abstract: A multilayer edible product includes a center, a barrier layer directly encompassing at least a portion of the center, and an outer layer directly encompassing the barrier layer and indirectly encompassing the center. The barrier layer includes a hydrophilic powder and a source of fat. The center has at least one of: a fat content that is either greater than or less than a fat content of the outer layer, or a water activity that is either greater than or less than a water activity of the outer layer. A composition of the barrier layer is different than a composition of the center and a composition of the outer layer.

Abstract: Disclosed is a spoonable smoothie with fibrous, non-chalky, non-gritty texture. The spoonable smoothie has more than 34% by weight of a combination of fruit and vegetable sources, a texturant, a protein source, a vitamin source, and a mineral source. In some embodiments, the spoonable smoothie may be produced via high-pressure processing or thermal processing. In some embodiments in which high-pressure processing is employed, acid whey may be used to help obtain the non-chalky, non-gritty texture. In other embodiments in which thermal processing is employed, order of ingredients may be used to help obtain the non-chalky, non-gritty texture. In those thermally processed embodiments, the texturant and the protein source may be separately hydrated to control the competition for water absorption between the texturant and the protein source.

Abstract: The present invention provides devices for disinfecting, sanitizing, etc., one or more writing implements using high energy source(s) or lamp(s), such as ultraviolet (UV) lamp(s), to irradiate the writing implement(s) placed within the device. The writing implement(s) may be placed inside an inner chamber surrounded by two or more portions of the device, the inner chamber receiving the writing implement(s) through a top opening and releasing or ejecting the writing implement(s) through a bottom opening. A holding mechanism present inside the device may hold the writing implement(s) until their release, such as in response to an input via a sensor and/or after a predetermined period of time. A device may instead have a receiving area or cavity that is irradiated by a high energy source(s) or lamp(s), which may be enclosed by a lid or cover. Writing implements having one or more separating fins, etc., are further provided.

Abstract: Methods are provided for treating high solids concentrated milk products to delay gelation of the concentrated milk products by minimizing the rate at which the viscosity of the concentrates increases during cold storage. By another approach, the methods described herein are effective to substantially reduce the viscosity of the concentrated milk products. The methods described herein advantageously increase the length of time the high solids milk concentrates remain fluid and pumpable during refrigerated shelf-life. The high solids concentrated milk products treated with the methods provided herein include about 33 to about 43 percent total solids. By one approach, the high solids concentrated milk products have a pH of about 4.6 to about 6.7, and include salt at about 0.25 to about 6 percent by weight of the concentrate.