A concentrated sugarcane juice powder obtained by a convection current vacuum freeze drying process that includes: selecting and preparing sugarcane stalks by a predetermined quality guideline; extracting sugarcane juice by inserting the sugarcane stalks into a sugarcane juice extracting apparatus having a mesh pattern of micro ridges configured to achieve a maximum extraction efficiency; adding probiotics into the extracted sugarcane juice; freezing the sugarcane juice mixed with the probiotics in molds using an individual quick freezer (IQF) to obtain frozen sugarcane juice blocks; and vacuum freezing said frozen sugarcane juice blocks using a convection current vacuum freeze drying apparatus.

A concentrated sugarcane juice powder obtained by a convection current vacuum freeze drying process that includes: selecting and preparing sugarcane stalks by a predetermined quality guideline; extracting sugarcane juice by inserting the sugarcane stalks into a sugarcane juice extracting apparatus having a mesh pattern of micro ridges configured to achieve a maximum extraction efficiency; adding probiotics into the extracted sugarcane juice; freezing the sugarcane juice mixed with the probiotics in molds using an individual quick freezer (IQF) to obtain frozen sugarcane juice blocks; and vacuum freezing said frozen sugarcane juice blocks using a convection current vacuum freeze drying apparatus.

Provided is a production process for powdered sugar and liquid syrup, comprising the steps of primary pressing sugar cane juice extraction, three-stage physical filtration, and sugar boiling, wherein the step of the three-stage physical filtration respectively uses a sieve plate, a bagasse separator and a micro-filtration membrane for filtration. The bagasse separator comprises a screen cylinder transversely arranged inside a separation bin. The inlet and outlet of the screen cylinder are respectively connected to a feeding bin and a discharging bin. A juice outlet and a bagasse outlet are respectively provided under the separation bin and the discharging bin. A propeller blade component is provided inside the screen cylinder. The propeller blade component is formed by combining vertical mixing blades with helical blades.

Provided is a production process for powdered sugar and liquid syrup, comprising the steps of primary pressing sugar cane juice extraction, three-stage physical filtration, and sugar boiling, wherein the step of the three-stage physical filtration respectively uses a sieve plate, a bagasse separator and a micro-filtration membrane for filtration. The bagasse separator comprises a screen cylinder transversely arranged inside a separation bin. The inlet and outlet of the screen cylinder are respectively connected to a feeding bin and a discharging bin. A juice outlet and a bagasse outlet are respectively provided under the separation bin and the discharging bin. A propeller blade component is provided inside the screen cylinder. The propeller blade component is formed by combining vertical mixing blades with helical blades.

A technology for material separation is provided. The technology enables an output of a first material from a rotary lifter. The technology enables a direction of a fluid stream onto the first material in flight based on the output of the first material such that the first material is separated into at least a second material and a third material. The technology enables a conveyance of the second material away from the rotary lifter. The technology enables a removal of the third material via a vacuum port.

A technology for material separation is provided. The technology enables an output of a first material from a rotary lifter. The technology enables a direction of a fluid stream onto the first material in flight based on the output of the first material such that the first material is separated into at least a second material and a third material. The technology enables a conveyance of the second material away from the rotary lifter. The technology enables a removal of the third material via a vacuum port.

The present invention relates to a process for producing an extract derived from sugar cane, the process comprising: i) mixing a sugar cane derived product with ethanol to produce an extraction mixture comprising at least about 50% v/v ethanol; ii) allowing a precipitate to form in the extraction mixture; iii) removing the precipitate from the extraction mixture to obtain a super-natant; and iv) removing ethanol from the supernatant to produce the extract derived from sugar cane. The present invention further relates to extracts produced according to the process of the invention. The invention also relates to the use of such extracts in a method of lowering the available calorific value of a food or beverage, in treating or preventing disease, and as a nutritional supplement, dietary supplement, sports nutrition product, food coating or pharmaceutical product.

The present invention relates to a process for producing an extract derived from sugar cane, the process comprising: i) mixing a sugar cane derived product with ethanol to produce an extraction mixture comprising at least about 50% v/v ethanol; ii) allowing a precipitate to form in the extraction mixture; iii) removing the precipitate from the extraction mixture to obtain a super-natant; and iv) removing ethanol from the supernatant to produce the extract derived from sugar cane. The present invention further relates to extracts produced according to the process of the invention. The invention also relates to the use of such extracts in a method of lowering the available calorific value of a food or beverage, in treating or preventing disease, and as a nutritional supplement, dietary supplement, sports nutrition product, food coating or pharmaceutical product.

A sugar cane shred press roller and a presser including the same are provided, which belong to the technical field of sugar-making equipment. Several circumferential bosses are arranged in an axial direction of a cylindrical roller body of the sugar cane shred press roller; modified cylindrical helical gears with opposite modification coefficients are formed on both sides of each of the circumferential bosses; and an annular juice discharge groove is formed between adjacent circumferential bosses. A presser with the sugar cane shred press roller is provided, axes of several sugar cane shred press rollers are spatially parallel with each other, the circumferential bosses and the juice discharge grooves of the adjacent sugar cane shred press rollers fit with each other and have gaps left, and the modified cylindrical helical gears of the adjacent sugar cane shred press rollers are meshed with each other.

A sugar cane shred press roller and a presser including the same are provided, which belong to the technical field of sugar-making equipment. Several circumferential bosses are arranged in an axial direction of a cylindrical roller body of the sugar cane shred press roller; modified cylindrical helical gears with opposite modification coefficients are formed on both sides of each of the circumferential bosses; and an annular juice discharge groove is formed between adjacent circumferential bosses. A presser with the sugar cane shred press roller is provided, axes of several sugar cane shred press rollers are spatially parallel with each other, the circumferential bosses and the juice discharge grooves of the adjacent sugar cane shred press rollers fit with each other and have gaps left, and the modified cylindrical helical gears of the adjacent sugar cane shred press rollers are meshed with each other.