An herbal infusion and decarboxylation device is an apparatus that enables higher control over an infusion process to make a high-quality infused product. The apparatus includes an infusion chamber and an infusion mechanism. The infusion chamber enables the monitoring and measuring of the infusion materials by including a chamber body, a chamber handle, and a lid assembly. The chamber body retains the infusion materials. The lid assembly includes several attachments to facilitate the infusion of the infusion materials. The chamber handle facilitates the safe handling of the chamber body. The infusion mechanism includes a motor, a blade assembly, a heating plate, and a temperature sensor. The motor drives the blade assembly to enable the infusion process. The heating plate enables the controlled heating of the infusion materials in the chamber body. The temperature sensor helps monitor the temperature of the infusion materials to adjust the operation of the heating plate.

An herbal infusion and decarboxylation device is an apparatus that enables higher control over an infusion process to make a high-quality infused product. The apparatus includes an infusion chamber and an infusion mechanism. The infusion chamber enables the monitoring and measuring of the infusion materials by including a chamber body, a chamber handle, and a lid assembly. The chamber body retains the infusion materials. The lid assembly includes several attachments to facilitate the infusion of the infusion materials. The chamber handle facilitates the safe handling of the chamber body. The infusion mechanism includes a motor, a blade assembly, a heating plate, and a temperature sensor. The motor drives the blade assembly to enable the infusion process. The heating plate enables the controlled heating of the infusion materials in the chamber body. The temperature sensor helps monitor the temperature of the infusion materials to adjust the operation of the heating plate.

Provided is a process for producing a tea extract having a high recovery rate of non-polymer catechins, a low caffeine content and an improved taste and color tone. As one embodiment of this invention provides, there is provided a process for producing a purified tea extract by adsorbing a tea extract on a synthetic adsorbent, bringing an aqueous solution of an organic solvent or a basic aqueous solution into contact with the synthetic adsorbent to elute non-polymer catechins, and then bringing the eluate into contact with activated carbon in an aqueous solution of an organic solvent.

Provided is a process for producing a tea extract having a high recovery rate of non-polymer catechins, a low caffeine content and an improved taste and color tone. As one embodiment of this invention provides, there is provided a process for producing a purified tea extract by adsorbing a tea extract on a synthetic adsorbent, bringing an aqueous solution of an organic solvent or a basic aqueous solution into contact with the synthetic adsorbent to elute non-polymer catechins, and then bringing the eluate into contact with activated carbon in an aqueous solution of an organic solvent.

Described is a raised bottom cold brewing system comprising a bucket having a top side, a cavity, a platform within the cavity, and a bottom side, a lid configured to be placed on top side of the bucket, and a faucet. The bottom side of the bucket includes a raised bottom and a channel surrounding the raised bottom, the platform includes a plurality of openings, and the faucet is below the platform and above the raised bottom and channel.

Described is a raised bottom cold brewing system comprising a bucket having a top side, a cavity, a platform within the cavity, and a bottom side, a lid configured to be placed on top side of the bucket, and a faucet. The bottom side of the bucket includes a raised bottom and a channel surrounding the raised bottom, the platform includes a plurality of openings, and the faucet is below the platform and above the raised bottom and channel.

The present disclosure provides a functional beverage of dark tea with zero energy for reducing weight and lipid and a preparation method thereof, and relates to the technical field of processing health-promoting beverage. The functional beverage includes 1.5-3.5 parts of dark tea, 0.3-0.7 parts of mulberry leaf, 0.1-0.5 parts of lotus leaf, 0.1-0.3 parts of stevia leaf, and 95.4-97.4 parts of purified water. The preparation process thereof includes treatment of raw materials, circulatory microwave extraction, static settlement, membrane ultrafiltration, and ultra-high temperature instantaneous sterilization (UHT). Compared with the prior art, the functional beverage uses purely natural herb plants without any additives. The obtained product has zero sugar while has the effects of quenching thirst and reducing weight and lipid. Key technologies such as integrated formula, circulatory microwave extraction, and membrane ultrafiltration enable the best flavor and efficacy of the beverage.

The present disclosure provides a functional beverage of dark tea with zero energy for reducing weight and lipid and a preparation method thereof, and relates to the technical field of processing health-promoting beverage. The functional beverage includes 1.5-3.5 parts of dark tea, 0.3-0.7 parts of mulberry leaf, 0.1-0.5 parts of lotus leaf, 0.1-0.3 parts of stevia leaf, and 95.4-97.4 parts of purified water. The preparation process thereof includes treatment of raw materials, circulatory microwave extraction, static settlement, membrane ultrafiltration, and ultra-high temperature instantaneous sterilization (UHT). Compared with the prior art, the functional beverage uses purely natural herb plants without any additives. The obtained product has zero sugar while has the effects of quenching thirst and reducing weight and lipid. Key technologies such as integrated formula, circulatory microwave extraction, and membrane ultrafiltration enable the best flavor and efficacy of the beverage.

A filter aid composition may include a first acid-treated silica-based filter aid having a first particle size distribution and a second acid-treated silica-based filter aid having a second particle size distribution. A method of making a filter aid composition may include providing a first silica-based filter aid having a first particle size distribution, providing a second silica-based filter aid having a second particle size distribution, and blending the first silica-based filter aid with the second silica-based filter aid to form the filter aid composition. A method of filtering a fluid may include providing a filter aid composition including a first acid-treated silica-based filter aid and a second acid-treated silica-based filter aid and filtering the fluid through the filter aid composition. The filter aid composition may have a multimodal particle size distribution such that the first particle size distribution has a d50 greater than the second particle size distribution.

A filter aid composition may include a first acid-treated silica-based filter aid having a first particle size distribution and a second acid-treated silica-based filter aid having a second particle size distribution. A method of making a filter aid composition may include providing a first silica-based filter aid having a first particle size distribution, providing a second silica-based filter aid having a second particle size distribution, and blending the first silica-based filter aid with the second silica-based filter aid to form the filter aid composition. A method of filtering a fluid may include providing a filter aid composition including a first acid-treated silica-based filter aid and a second acid-treated silica-based filter aid and filtering the fluid through the filter aid composition. The filter aid composition may have a multimodal particle size distribution such that the first particle size distribution has a d50 greater than the second particle size distribution.