A method/process is provided for extracting and processing sugarcane juice from sugarcane stalks to produce a shelf-stable natural juice product preserving policosanols naturally-occurring in raw sugarcane sticks. The method includes steps of: providing sugarcane stalks having a high sucrose level; extracting sugarcane juice from the sugarcane stalks using a roller mill apparatus; filtering the extracted sugarcane juice through a screen filter; stabilizing the pH of the juice in a non-acidic solution of calcium hydroxide to a pH level in the range of 7.4 to 7.6; flocculating the sugarcane juice with a mixture of water and at least one natural flocculate product; evaporating the sugarcane juice to form a sugarcane juice concentrate having a Brix in the range of 50 Bx to 60 Bx; and extracting the sugarcane juice concentrate from the evaporator, while maintaining a maximum sugarcane juice temperature never exceeding 70 C. throughout the process.

An ultra high molecular weight polyethylene (UHMWPE) membrane has at least one nanoporous UHMWPE film, where each of the nanoporous UHMWPE film is biaxial oriented with a thickness of 0.1 to 12 m and pores that exclude particles in excess of 10 nm with a total porosity of 65 to 75 percent. The nanoporous UHMWPE film can be coated or laminated by a hydrophilic polymer to form a Janus membrane and can be made with a multilayer composite structure. The UHMWPE membrane can be used in a device for molecular distillation (MD), reverse osmosis (RO), or forward osmosis (FO).

A spray drying process and apparatus for drying a spray dryable liquid composition to a spray dried powder is described, in which the spray dryable liquid composition contains no carrier. The spray dryable liquid composition is processed at a solids concentration not exceeding 80% by weight, based on total weight of the spray dryable liquid composition, being atomized to generate an atomized spray of liquid particles of the spray dryable liquid composition into a spray drying chamber, in which the atomized spray is contacted with a stream of drying fluid flowed at temperature not exceeding 100 C. into the spray drying chamber, to form the spray dried powder.

A spray drying process and apparatus for drying a spray dryable liquid composition to a spray dried powder is described, in which the spray dryable liquid composition contains no carrier. The spray dryable liquid composition is processed at a solids concentration not exceeding 80% by weight, based on total weight of the spray dryable liquid composition, being atomized to generate an atomized spray of liquid particles of the spray dryable liquid composition into a spray drying chamber, in which the atomized spray is contacted with a stream of drying fluid flowed at temperature not exceeding 100 C. into the spray drying chamber, to form the spray dried powder.

A spray drying process and apparatus for drying a spray dryable liquid composition to a spray dried powder is described, in which the spray dryable liquid composition contains no carrier. The spray dryable liquid composition is processed at a solids concentration not exceeding 80% by weight, based on total weight of the spray dryable liquid composition, being atomized to generate an atomized spray of liquid particles of the spray dryable liquid composition into a spray drying chamber, in which the atomized spray is contacted with a stream of drying fluid flowed at temperature not exceeding 100 C. into the spray drying chamber, to form the spray dried powder.

Provided is a solid drink for regulating yang-deficiency constitution. The solid drink includes the following components of raw materials in parts by weight: Perilla 30-60, raspberry 35-55, Lycium barbarum 35-57, poria 30-54, cinnamon 35-55, fennel 20-40, ginger 33-55, dextrin 50-90, maltodextrin 23-45, soluble starch 20-44, and aspartame 0.15-0.35. The solid drink is easy to manufacture, and all the raw materials used are medicine materials of medicinal and edible dual purposes, and all the excipients used also satisfy national standard GB2760-2011 (National Food Safety Standard for Uses of Food Additives). It is safe to eat (drink) with good taste, and long-term consumption has certain effects on improving the yang-deficiency constitution. Moreover, the processing process is suitable for industrial mass production.

Provided is a solid drink for regulating yang-deficiency constitution. The solid drink includes the following components of raw materials in parts by weight: Perilla 30-60, raspberry 35-55, Lycium barbarum 35-57, poria 30-54, cinnamon 35-55, fennel 20-40, ginger 33-55, dextrin 50-90, maltodextrin 23-45, soluble starch 20-44, and aspartame 0.15-0.35. The solid drink is easy to manufacture, and all the raw materials used are medicine materials of medicinal and edible dual purposes, and all the excipients used also satisfy national standard GB2760-2011 (National Food Safety Standard for Uses of Food Additives). It is safe to eat (drink) with good taste, and long-term consumption has certain effects on improving the yang-deficiency constitution. Moreover, the processing process is suitable for industrial mass production.

A concentrated orange carrot permeate, wherein a) the amount of fructose is 2.5 to 30.0 wt. % on a dry matter basis, b) the amount of glucose is 3.0 to 20.0 wt. % on a dry matter basis, c) the amount of sucrose is 0.5 to 60.0 wt. % on a dry matter basis, and d) the dry matter is 55 to 85 wt. %, wherein the amounts of fructose and glucose are determined according to ASU L 31.00-12, wherein the amount of sucrose is determined according to ASU L 31.00-13, and wherein the dry matter is determined according to ASU L 26.11.03-1a. A caramelized concentrated orange carrot permeate, a mix of the concentrated orange carrot permeate and the caramelized concentrated orange carrot permeate, to the use of said products in food applications and to food products containing concentrated orange carrot permeate and/or caramelized concentrated orange carrot permeate.

A method of making a fortified dairy product includes concentrating an amount of fruit juice and an amount of camel milk to obtain an amount of concentrated camel milk and an amount of concentrated fruit juice. The concentrated camel milk and the concentrated fruit juice can be heated and blended to produce a mixture. The mixture can then be spray dried to produce the fortified dairy product. The fortified dairy product can be a homogenous powder having a pH level ranging from about pH 4.5 to about pH 7.0.

A method of making a fortified dairy product includes concentrating an amount of fruit juice and an amount of camel milk to obtain an amount of concentrated camel milk and an amount of concentrated fruit juice. The concentrated camel milk and the concentrated fruit juice can be heated and blended to produce a mixture. The mixture can then be spray dried to produce the fortified dairy product. The fortified dairy product can be a homogenous powder having a pH level ranging from about pH 4.5 to about pH 7.0.