Jun. 23, 2025
Machinery
Kombucha brewers often struggle with inconsistent batches, contamination, and poor fermentation results—especially when using basic jars or low-quality containers. These challenges grow with batch size and can undermine both flavor and safety.
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A kombucha fermenter is a specialized brewing vessel designed to hold and ferment kombucha tea in controlled conditions, helping brewers maintain temperature, prevent contamination, and scale production from homebrew to commercial use.
A kombucha fermenter is a vessel used to hold sweet tea mixed with a scoby during the fermentation process. This vessel is the core of every successful kombucha brew, ensuring stable conditions for healthy bacteria and yeast to thrive.
Unlike regular containers, kombucha fermenters are engineered for:
Food-grade safety (glass, plastic, or stainless steel)
Support for airlock or valve integration
Easy cleaning and contamination prevention
Batch sizing flexibility from 1 gallon to 7 gallons or more
Tight sealing options to avoid exposure to oxygen and pests
The right fermenter can mean the difference between a smooth, fizzy, delicious kombucha and a failed or vinegary mess. For commercial kombucha production, choosing a conical fermenter with a bottom valve for sediment removal becomes critical.
Choosing the right fermenter size depends on how much kombucha you want to brew per batch. From 3 gallon glass jars to 50-gallon stainless steel fermenting tanks, there’s a fermenter for every brewer—from DIY home users to beverage brands.
A 5 gallon kombucha fermenter is one of the most popular choices. It offers enough volume to experiment with flavoring, ginger additions, and secondary fermentation while being manageable in most home kitchens.
Both glass and stainless steel fermenters are widely used for kombucha fermenting, and each comes with pros and cons.
Transparent: Easy to monitor pellicle growth
Affordable: Great for diy and homebrewers
Compatible with swing top bottles and straining bags
However, glass jars can break, don’t have built-in valves, and can be hard to scale with.
Easy to clean, sanitize, and prevent contamination
Highly durable and professional-grade
Often includes lid, valve, and tap
Compatible with heating sleeves and fermentation temperature controllers
Though pricier, a stainless steel kombucha fermenter offers a more efficient experience, especially for larger batch or commercial brewing kombucha operations. The interior is non-reactive and easy to sterilize between batches.
When evaluating a kombucha brewing fermenter, the right accessories and design features make a huge difference.
Key features include:
Airlock or breathable lid to allow CO2 release
Spigot or valve for easy transfer of kombucha without disturbing the scoby
Wide-mouth opening for adding ginger, lemon, or removing the pellicle
Compatibility with thermometer probes, pH strip slots, or heating sleeves
Some fermenters now include:
Digital thermometer with temperature range sensors
Built-in filter or strainer at the tap
Food-grade seal to keep dust and pests out
If you’re scaling, choosing a fermenter that is SS Brewtech-compatible or supports clean-in-place (CIP) systems can significantly reduce cleaning time.
Small versus large batches of kombucha ferment differently due to heat retention, oxygen exposure, and yeast activity.
Small batches (1 to 3 gallons) tend to ferment quicker but are more vulnerable to environmental temperature swings.
Large batches (5 gallons and above) maintain more thermal stability and allow kombucha flavoring and experimentation across portions.
It’s important to keep a thermometer or even a fermentation controller for batches over 5 gallons, especially in cooler climates. Some brewers use heat mats or fermentation chambers to manage ambient conditions and ensure consistent results.
Consistent fermentation depends heavily on the control of both temperature and acidity. Most kombucha ferments best between 22°C and 28°C (71°F to 82°F), and the optimal pH should drop to between 2.5 and 3.5 within a few days.
A high-quality kombucha fermenter supports this control by allowing:
Easy integration of digital thermometer or analog temperature strip
Compatibility with heat mats or fermentation heaters
Space to insert pH strips for real-time monitoring
Measuring and maintaining these values is essential to avoiding issues like slow fermentation or harmful bacteria growth. Commercial setups often rely on temperature-controlled stainless steel tanks with automated regulators for batch stability.
For beginner homebrewers, even a simple 5 gallon vessel can be monitored using stick-on thermometer strips and routine testing with low-cost pH meters.
Accessories may seem optional at first, but they play a key role in producing clean, consistent kombucha. Investing in the right brewing supplies can simplify your workflow and improve product quality.
Here are some of the most useful add-ons:
Straining bag: To contain large tea leaves or fruit solids during flavoring
Spigot with valve: For transferring kombucha without disturbing the pellicle
Airlock: Allows CO2 to escape while preventing oxygen and contamination
Glass jar cover or breathable cloth: Crucial for small-batch brewers
Digital thermometer: For exact temperature tracking inside the vessel
Tap or dispenser: For bottling with minimal air exposure
Many of these items are bundled in a kombucha brewing kit, which can be ideal for small-scale or startup kombucha makers. For larger volumes, stainless steel fermenters often come pre-equipped with a lid, valve, and thermometer port.
As batch size increases, so does the risk of unwanted microbial contamination. Improper sanitation, exposure to open air, or inconsistent temperatures can all compromise your kombucha.
Best practices include:
Always sanitize fermenters, lids, and any tools before and after use
Avoid using containers with scratches or grooves where bacteria can hide
Use a clean cloth or food-grade seal to cover the fermenter when not using an airlock
Keep the fermentation area free of dust, insects, and temperature fluctuations
Never use metal lids that may react with the acidic kombucha liquid
Larger operations often use CIP-capable tanks or stainless fermenters with built-in cleaning systems. These can help reduce manual cleaning time while improving consistency between batches.
What size kombucha fermenter should I start with?
If you’re brewing at home, a 3 to 5 gallon fermenter is perfect. It allows you to test recipes and build experience without risking large batch losses.
Can I use a beer brewing bucket to ferment kombucha?
Yes, as long as it’s made of food-grade plastic or stainless steel and cleaned thoroughly. However, kombucha has its own needs and flavors, so separate gear is usually better.
Why is a spigot or valve helpful on a fermenter?
Valves allow you to extract finished kombucha without disturbing the scoby layer on top. This keeps your starter healthy and your brew clean.
Do I need to monitor temperature and pH?
Absolutely. Temperature and pH directly affect the safety, flavor, and fizz of your kombucha. Use a thermometer and pH strips regularly.
What material is best for a kombucha fermenter?
Stainless steel is ideal for professional use. Glass is great for beginners. Avoid porous plastic or containers that may absorb odors or bacteria.
Can one fermenter be used for multiple kombucha batches?
Yes, but ensure proper sanitation between batches. Also, always keep some starter liquid and a healthy scoby for your next brew.
Kombucha fermenters are purpose-built vessels used to brew kombucha tea under controlled, clean conditions.
Sizes range from 1 gallon to over 50 gallons. Homebrewers often start with glass or food-grade plastic. Commercial setups use stainless steel tanks.
Stainless steel fermenters are easier to clean, more durable, and compatible with accessories like valves, thermometers, and airlocks.
Consistency in fermentation requires monitoring temperature and pH, using quality tools and maintaining cleanliness at every step.
Accessories like spigots, airlocks, and digital thermometers enhance brewing efficiency and help prevent contamination.
If you are starting a new kombucha brand or looking to expand your current setup, choosing the right fermenter is a critical decision. As a professional manufacturer of kombucha and brewing equipment, we help brands scale production efficiently with customizable equipment, technical support, and international service.
Reach out to our team today to get a quote on kombucha fermenters that fit your batch size, layout, and brewing style. We’re ready to support your growth from concept to final product.
Version 3.0
Product Standards & Food Safety Requirements
Product Scope: This standard applies to all beverages bearing the name of kombucha, from concentrate or not, flavored or not, intended for direct consumption in conformity with the definitions of this Code of Practice. Kombucha Brewers are required to comply with the standards listed in order to pursue certification.
The purpose of this code of practice is to create a food safety and quality standard for kombucha producers that creates transparency for consumers to make informed choices. The certification and seal program provide a high level of trust for food safety and an understanding that the product follows clear standards for kombucha manufacture.
Table of Contents
Kombucha tea is a slightly sweet/acidic fermented beverage made with an aqueous extract of tea leaves (fermented) utilizing a symbiotic culture of bacteria and yeast (SCOBY or pellicle). Kombucha typically has a pH range of 2.3 to 3.8. The fermentation produces a beverage with some natural carbonation, organic acids, nutrients in natural form and trace amounts of alcohol. Variations in the base solution and optional ingredients, as well as further possible fermentation processes provide a variety of related similar products with different flavor profiles. Sanctioned variations are listed in this standard.
2. Processing and Ingredient Definitions
2.1 Tea: An unsweetened beverage obtained from soaking the leaves of the Camellia sinensis plant in water. Same as Tea Liquor. Variations of Camellia sinensis include but are not limited to black, green, white, oolong, yellow, pu-erh and so forth.
2.2 Tea liquor: The liquid from steeped tea leaves, same as brewed tea.
2.3 Sweetened tea liquor: Steeped tea with an added nutritive carbohydrate.
2.4 SCOBY: An acronym that stands for “Symbiotic Culture of Bacteria and Yeast”. The SCOBY contains a mixture of Acetic Acid Bacteria (AAB) species and any of a number of yeast species including but not limited to Brettanomyces bruxellensis; Zygosaccharomyces; Candida spp. and so forth that will vary based on region. It manifests in two microbiologically distinct phases. Either or both phases may be used as inoculant. See Analytic Profile of Kombucha.
2.4.1 Liquid Phase SCOBY: Commonly referred to as “starter liquid” or “backslop,” it refers to already fermented kombucha from the previous batch. It may also be independently produced to yield a lower pH and lower Brix for a variety of reasons including speeding up the fermentation process and lowering the pH more quickly.
2.4.1.1 It is microbiologically active and capable of producing solid phase SCOBY.
2.4.1.2 The amount of liquid phase SCOBY to be used, especially if no solid phase SCOBY is employed, is typically no less than 10% of the total batch volume to ensure product safety.
2.4.2 The solid phase of SCOBY is commonly referred to as pellicle, bacterial cellulose and mother culture. It is a matrix of bacterial cellulose and yeast used as inoculant.
2.4.2.1 The solid phase requires liquid phase to be present for best results.
2.5 Nutritive carbohydrate sweetener: Any sugar source that facilitates the fermentation process including but not limited to sucrose, fructose, glucose, galactose, dextrose, lactose, maltose, as well as other nutritive carbohydrate sweeteners that support fermentation such as honey, agave, molasses, brown sugar, maple syrup and certain fruit juices. Must be a type that will ferment to provide the characteristics of traditional kombucha.
2.6 Kombucha Base: An intermediary product not sold directly to consumers. Kombucha fermentation techniques as specified in the standard must be employed to achieve the base which typically has been fermented so that the sugars end up at 0%, and acetic acid concentration is over 1.2%. This product cannot be consumed without dilution and is considered a manufacturing sub-ingredient for the finished product. It requires dilution of over 20% of water, juice, tea or other liquid to produce a safe and palatable kombucha-style product and is therefore not subject to the labeling requirement. Kombucha base must be indicated as “from concentrate” on the front of the label as well as in the ingredients panel. See Labeling Requirements.
2.6.1 Kombucha Base that is produced through traditional, long term fermentation (30 days or longer) may contain a greater quantity and variety of acids and nutrients based on HPLC testing.
2.6.2 Kombucha base which is produced in a shorter time using techniques such as fermentation temperatures that exceed those listed in section 4.3, forced oxygenation, constant stirring or movement of the liquid from one tank to another, and so forth. It is still subject to the same labeling requirements as 2.6.
3. Finished Product Definitions
3.1. Traditionally Fermented Kombucha Tea: A traditional beverage that is obtained from the fermentation of various types of tea leaves, sugar, SCOBY, and starter liquid which results in a tangy, slightly sweet, effervescent liquid with low levels of alcohol and without additional heat treatment after fermentation. Flavoring may be added. his kombucha will grow a spontaneous SCOBY if undisturbed in an open container at temperatures between 70º-90ºF (21º-32ºC)
3.1.1 Mandatory Ingredients:
3.1.1.1. Camellia sinensis leaves
3.1.1.2. Potable Water
3.1.1.3. Nutritive carbohydrate sweeteners (See Labeling Requirements)
3.1.1.4. Liquid and solid phase SCOBY
3.1.2. Optional Ingredients (not to exceed 20% of the finished product by volume formulation solely or in combination) See Labeling Requirements
3.1.2.1. Flavorings ingredients including various juices
3.1.2.2 Characterizing food ingredients
3.1.2.3. Carbon dioxide
3.2. Kombucha: A beverage obtained from fermentation of any number of acceptable plant materials, SCOBY/starter liquid, water and a fermentable sugar. Flavoring may be added. Depending on processing steps, this kombucha may or may not grow a SCOBY spontaneously.
3.2.1. Mandatory Ingredients:
3.2.1.1. Camellia sinensis, coffee, yerba mate, herbs or other defined substrate per Finished Product Definitions
3.2.1.2. Potable Water
3.2.1.3. Nutritive carbohydrate sweeteners
3.2.1.4. Liquid and/or solid phase SCOBY
3.2.2 Optional Ingredients (not to exceed 20% of the finished product by volume formulation solely or in combination) See Labeling Requirements
3.2.2.1. Flavorings ingredients including various juices
3.2.2.2. Aroma and flavor-producing microbial cultures
3.2.2.3. Vitamins and minerals
3.2.2.4. Characterizing food ingredients (such as chia seeds)
3.2.2.5. Probiotic bacteria
3.2.2.6. Carbon dioxide
3.2.2.7. Citric and other acids
3.2.2.8. Color additives
3.2.2.9. Stabilizers – used only in flavored, colored or vitamin and mineral fortified kombucha
3.3. Jun Kombucha: A traditional kombucha, except that only raw honey may be used as a sweetener
3.4. Honey Kombucha: A traditional kombucha, except that only pasteurized honey may be used as the sweetener.
3.5. Herbal Kombucha: A traditional kombucha, except that a minimum of 20% of the plant material is composed of herbs.
3.6. Coffee Kombucha: A traditional kombucha, except that a minimum of 20% of the plant material is composed of coffee.
3.7. Yerba Mate Kombucha and Yaupon Kombucha: A traditional Kombucha, except that a minimum of 20% of the plant material is composed of yerba mate or yaupon.
3.8. Hard Kombucha: A kombucha to which which is crafted to yield a higher alcohol content than traditional kombucha using non-native yeasts or combining with higher alcohol containing beverages such as beer, cider, wine, spirits, etc. These products contain an alcohol content greater than 4% ABV and are subject to local excise taxes.
3.8.1. Crafted Hard Kombucha: A traditional kombucha fermentation to which additional non-native yeast is added at a later phase resulting in a higher than possible alcohol content.
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Related links:3.8.2. Spiked Hard Kombucha: A kombucha to which alcohol is added to yield a higher alcohol beverage. Could also be termed “Kombucha Cocktail.”
4. Kombucha Brewing Process Steps
4.1. Tea leaves (and/or coffee, herbs, yerba mate, etc.) are steeped in water and then removed to produce tea liquor.
4.1.1. Hot steep or cold steep is acceptable provided it meets the safety requirements of your local regulators.
4.1.2. Steeping time will vary by producer and type of substrate used.
4.1.3. Other botanicals, fruit or ingredients may be added at this stage of the fermentation process.
4.2. The tea liquor is mixed with a nutritive sugar source.
4.3. Once the sweetened tea liquor is at the right temperature for the SCOBY, then it is added.
4.3.1. The amount of SCOBY may differ between kombucha manufacturers and in different regions of the world though a minimum of 10% is required for food safety reasons.
4.3.3. pH is recommended to be 4.6 or lower after adding the SCOBY.
4.4. Fermentation continues at the desired temperature in an aerobic environment for an established time.
4.4.1. The fermenting substrate will start to smell acidic with evidence of gas bubbles appearing.
4.4.2. A new SCOBY will start forming across the surface of the liquid concurrent with an anaerobic fermentation process to occur below the surface of the liquid.
4.4.3. The taste of the kombucha changes during fermentation from a pleasantly fruity, tangy flavor after a few days to a vinegary taste after a longer fermentation time.
4.4.4. The color of the liquid will also lighten the longer it is fermented.
4.4.5. Some may choose to use closed tank systems and bubble in air/oxygen.
4.4.6. Kombucha base is typically subject to rapid fermentation in closed tank systems using oxygenation techniques common in the vinegar making industry.
4.5. Fermentation time will vary based on several factors including size and shape of vessel, temperature & humidity, type of substrate, amount of SCOBY added and so forth.
4.6. At the end of primary fermentation, the newly formed cellulosic pellicle is removed and may be used for future fermentation provided no signs of mold are present.
4.7. A flavor infusion step may occur at this point in the process and if there are fermentable sugars present in the flavorings, then would be considered secondary fermentation.
4.8. A tertiary fermentation may occur if the product is permitted to bottle age; that is remain bottled for a period of time to induce flavor changes and/or changes in natural effervescence.
4.9. At any stage, the beverage may be filtered to remove excess yeast.
4.9.1. Filtration equal to or less than 0.45 microns, must be indicated on the label as “sterile filtered”. See Labeling Requirements
4.10. The finished product is then packaged and stored at refrigeration temperatures between 40ºF (4.4ºC) – 48ºF (9ºC) throughout its distribution chain, to inhibit additional fermentation that could lead to increased alcohol content, reduced shelf life and off flavors. Exact temperature may vary based on local regulations.
4.10.1. If the product is pasteurized or otherwise subjected to processing steps to create a shelf stable product, then refrigeration is not needed.
4.10.1.1. Other shelf stable step include but are not limited to:
4.10.1.1.1. High pressure pasteurization
4.10.1.1.2. Chemical sterilization or pasteurization
4.10.1.1.3. Sterile filtration
4.10.2. Kombucha that is kegged must utilize equipment and practices as outlined in the Kombucha Draught Standards Manual.
5. Additional Processing Steps
5.1. Some Kombucha tea undergoes further processing that could include:
5.1.1. Secondary fermentation naturally produces carbon dioxide and ethanol which adds carbonation and varying levels of “fizz” to the Kombucha beverage.
5.1.1.1. Kombucha undergoing natural secondary fermentation may be indicated on the label as “naturally effervescent” or “naturally carbonated” assuming no form of forced carbonation or chemical reaction to produce additional carbonation is used.
5.1.1.2. Kombucha undergoing natural secondary fermentation needs to confirm ethanol levels are in compliance for their region. See Alcohol Chart below.
5.1.2. Pasteurization at any stage to kill organisms and limit further fermentation in the bottle.
5.1.2.1. Pasteurized Kombucha must be indicated on the label. See Labeling Requirements
5.1.3. Dealcoholized: Any technique, mechanical, chemical or otherwise employed after fermentation to remove all naturally occurring ethanol from the product.
5.1.3.1. Kombucha that has had some or all naturally occurring ethanol removed must have this indicated on the label. See Labeling Requirements
5.1.4. Dilution: Kombucha may be diluted with water or juice after fermentation and prior to bottle.
5.1.4.1. Dilution % must be indicated on the label only if it contains more than 20% of added ingredients and is not a product made using kombucha base.
5.1.4.2. Juice % must be listed above the nutrition panel in accordance with 21 CFR 101.30.
5.2. Kombucha can be produced using a kombucha base provided the base was produced in the same manner as listed in steps 4.1-4.6 above.
5.2.1. Kombucha produced from base must have this indicated in the ingredients list as the product “Kombucha base (INGREDIENTS BY WEIGHT IN THE BASE)” and also indicate on the front of the label that the product is “from concentrate.” See Labeling Requirements
Exact steps will vary by producer
7. General Hygiene Requirements
7.1. Primary Production: Primary production should be managed in a way that ensures that food is safe and suitable for its intended use. Where necessary, this will include:
7.1.1. Avoiding the use of areas where the environment poses a threat to the safety of food.
7.1.2. Controlling contaminants, pests and diseases of animals and plants in such a way as not to pose a threat to food safety.
7.1.3. Adopting practices and measures to ensure food is produced under appropriately hygienic conditions.
7.2. Establishment Design and Facilities: Depending on the nature of the operations, and the risks associated with them, premises, equipment and facilities should be located, designed and constructed to ensure that:
7.2.1. Contamination is minimized.
7.2.2. Design and layout permit appropriate maintenance, cleaning and disinfections and minimize airborne contamination.
7.2.3. Surfaces and materials, in particular those in contact with food, are non-toxic in intended use and, where necessary, suitably durable, and easy to maintain and clean.
7.2.4. Where appropriate, suitable facilities are available for temperature, humidity and other controls.
7.2.5. Effective protection against pest access and harborage.
7.3. Control of Operation: To produce food that is safe and suitable for human consumption.
7.3.1. Formulate design requirements with respect to raw materials, composition, processing, distribution and consumer use to be met in the manufacture and handling of specific food items
7.3.2. Design, implement, monitor and review effective control systems.
7.4. Establishment: Maintenance, Sanitation and Personal Hygiene
7.4.1. Ensure adequate and appropriate maintenance and cleaning.
7.4.2. Control pests.
7.4.3. Manage waste.
7.4.4. Monitor effectiveness of maintenance and sanitation procedures.
7.4.5. Ensure that those who come directly or indirectly into contact with food are not likely to contaminate food.
7.4.5.1. Maintain an appropriate degree of personal cleanliness.
7.4.5.2. Behave and operate in an appropriate manner.
7.5. Transportation: Measures should be taken where necessary.
7.5.1. Protect food from potential sources of contamination.
7.5.2. Protect food from damage likely to render the food unsuitable for consumption
7.5.3. Provide an environment that effectively controls the growth of pathogenic or spoilage microorganisms and the production of toxins in food.
7.6. Product Information and Consumer Awareness: Products should bear appropriate information (i.e. lot coding).
7.6.1. Ensure adequate and accessible information is available to the next person in the food chain to enable them to handle, store, process, prepare and display the product safely and correctly
7.6.2. Easily identify the lot or batch and recall if necessary.
7.7 Recall Procedure: Sometimes raw kombucha can continue to ferment in the bottle and move out of compliance for alcohol due to natural fermentation from supply chain issues or temperature abuse. The vast majority of these products are still safe to consume, however to be in compliance, they may need to be removed from the point of sale.
7.7.1. Any product deemed subject to recall in the United States is subject to the FDA Regulatory Procedures Manual; Chapter 7 Recall Procedures
7.7.2. Any product deemed necessary to recall in any other country is subject to their government agencies recall procedures. See chart in Labeling Requirements
8. Labeling Requirements: The name of the beverage that meets all of the above requirements in this industry code of practice is either “Traditionally Fermented Kombucha Tea” or “Kombucha” or any of the Finished Product Definitions assuming the product conforms to the specifications for that definition.
8.1. The following terms shall accompany the name wherever it appears on the principal display panel or other panels of the label in letters not less than one-half of the height of the letters used for the name of the food.
8.1.1. The term “Pasteurized” if pasteurized. Must meet 21 CFR part 117 requirements.
8.1.2. The phrase “From Concentrate” if produced using a kombucha base.
8.1.2.1. In addition to being visible on the front panel, it also needs to be listed on the ingredients label in the order from greatest to least thusly: Water, Kombucha base (INGREDIENTS BY WEIGHT IN THE BASE), flavorings, stevia, etc.
8.1.3. The phrase “sterile filtered” if passed through a filter of equal to or less than 0.45 microns.
8.1.4. The phrase “preservatives added” if chemically pasteurized. Preservatives must be listed in the ingredients statement.
8.2. The following terms shall appear on the label in letters consistent with ingredient panel label requirements.
8.2.1. If naturally occurring ethanol was removed prior to bottling, it must be noted on the label.
8.2.2. If carbon dioxide is infused just prior to or during bottling, it must be noted on the label. This must be listed in the ingredient statement.
8.2.3. The word “X% kombucha” must be stated if the product has less than 80% kombucha and is not made from kombucha base.
8.2.4. The phrase “Added cultures” if additional bacteria or yeast are added prior to bottling. These must be listed in the ingredient statement.
8.2.5. The phrase “Added probiotics” if probiotics are added. These must be listed in the ingredient statement.
8.2.6. The phrase “Added acids” if additional organic acids are added. These must be listed in the ingredient statement.
8.2.7. The phrase “Flavored with XX” and/or “Colored with XX” with the “XX” identified as specific flavoring or coloring agent. These must be listed in the ingredient statement.
8.2.8. The phrase “sterile filtered” must be included on any products that are passed through a filter of equal or less than 0.45 microns.
8.2.9. A refrigeration statement may be required if the product is not subject to processing steps that eliminate the need for refrigeration such as pasteurization, sterile filtration, etc.
8.2.9.1. Examples include: “Keep Refrigerated” or “Store Refrigerated.”
8.2.10. Ethanol labeling may be required. See Ethanol Compliance
8.2.11. When listing ingredients, if sugar is used as the nutritive carbohydrate source, then final sugar grams must be listed as “Added Sugars.” This applies to kombucha produced in the United States. Labeling requirements for sugar may vary based on country.
8.2.12. When listing ingredients, the term “Kombucha Cultures” may be used provided the cultures used conform to the properties listed in section 10.5.
8.3. The following marketing terms may be used if desired.
8.3.1. The phrase “Naturally Effervescent” if no artificial carbonation has been injected prior to or during bottling.
8.3.2. The phrase “Wild Culture” if using a starter liquid and/or SCOBY that has been cultivated from wild strains and has not been designed nor bioengineered. The culture may be manipulated through hybridization or natural cultivation – i.e. desired characteristics cultivated through selective breeding.
8.3.3. The phrase “Raw” if the kombucha has not been subjected to pasteurization, sterile filtration or chemical sterilization and is able to spontaneously produce a SCOBY if left at the right conditions.
8.3.4. The phrase “Cold Filtered” if the kombucha has been filtered via temperature.
8.3.5. Bespoke/Lab Created Cultures: Cultures of limited strains of AAB and any number of yeasts native to kombucha that are generated in a lab and intended to create specific outcomes – ie reduced alcohol content, flavor profile. These cultures do not contain the same diversity of species as a wild culture and may or may not confer the same health outcomes to consumers.
8.3.6 The term “Unfiltered” may be used for kombucha that has not been filtered which creates a different flavor and mouthfeel due to the presence of yeast.
8.4. When kombucha meeting this Code of Practice is mixed with another type of beverage or food, the result is a compound food and the percentage of Kombucha in the finished beverage must be identified, i.e.“Contains _ percent (or %) Kombucha” or a similar phrase, with the blank filled in with the percentage expressed as a whole number not greater than the actual percentage of kombucha. The percentage of kombucha declaration shall be placed prominently on the primary display panel, in easily legible boldface print or type in distinct contrast to other printed or graphic matter.
9. Kombucha Specifications
9.1. Kombucha shall be practically free from contaminants and meet all regulatory requirements for human food.
Contaminant Maximum limit Method of test Arsenic (As), mg/kg 0.05 US ISO /NF EN Lead (Pb), mg/kg 0.05 US ISO Mercury (Hg), mg/kg 0.001 US ISO Cadmium (Cd), mg/kg 0.003 US ISO -29.2. Kombucha shall not contain vinegar eels nor fruit flies.
10. Analytical Profile of Kombucha
10.1 Chemical Standards
Substance Source Concentration Range Comments Alcohol (ETOH) Finished product In compliance with local regulations See chart below for additional details by country & region. 0.00-3.2%ABV Ethanol in kombucha naturally ranges from 0-3% ABV Titratable Acidity-Acetic Acid
Finished product Max 2.0% 0.27-2.03% pH Finished product Max 3.8 2.3-3.8 Must be less than 4.6 for food safety10.2. Ethanol Compliance
10.2.1. At a minimum, send to a 3rd party lab on annual basis to confirm food safety and compliance. Local regulators may require more frequent ethanol testing by third parties.
10.2.1.1. Labs and their testing methods vary greatly. It is highly suggested that a ISO accredited or similarly reliable lab be used. In lieu of an accredited lab, it is imperative to understand the testing methods to confirm they are accurate for ethanol in kombucha.
10.2.2. Retain on file lab results which demonstrate an alcohol level in compliance for your country and region.
10.2.3. A minimum of twice per year, the company should test its kombucha pulled from retention samples held in house, and must maintain records that demonstrate that the alcohol level is below the legal limit for your country.
10.2.4. Non Alcoholic Kombucha: Must comply with local laws. See Chart below for reference.
10.2.4.1. Ethanol testing is recommended for every batch for food safety and compliance using a KBI Approved Ethanol Testing Method.
10.2.5. Hard Kombucha:
10.2.5.1. Determine whether the kombucha requires permits as a brewery or winery depending on your local regulations. Hard Kombucha may be classified as beer, wine or hard seltzer depending on the method and ingredients of manufacture.
10.2.5.2. Comply with all regulations regarding the best practices for a product of its classification.
10.3. Consult your legal team to determine what if any alcohol warning statement is required on your product.
10.3.1. Example Statements: “Kombucha is a fermented tea that has naturally occurring alcohol.” “Kombucha naturally contains trace amounts of ethanol due to the fermentation process.”
10.3.2. May also add language to the effect of “ Do not consume if you are avoiding alcohol.”
10.4. Ethanol Compliance Chart by Country (send any updates for your country/state or province to )
Country Ethanol Level for All Ages Ethanol Level for labeling Ethanol level for taxation Comments United States <0.5% <0.5% >0.5% KOMBUCHA Act, when it passes, would change threshold for taxation to 1.25% ABV Australia – New South Wales, Victoria, Queensland <0.5% >0.5% Australia – Western Australia, South Australia, Tasmania <1.15% >1.15% Canada – Alberta, British Columbia, Manitoba, <1.1% <1.1% >1.1% Canada – Nova Scotia, Ontario, PEI, Quebec, Saskatchewan <0.5% <0.5% >0.5% Europe – Belgium <0.5% Europe – Denmark, Lithuania, Luxembourg, Slovenia, Spain <1.2% <1.2% >1.2% Europe – Finland <1.2% <1.2% >2.8% 1.2-2.8% pay taxes for alcohol but still considered a “non-alcoholic” beverage – NO marketing allowed for alcoholic beverages unless below 2.8% Europe – Slovakia <.75% Mexico <2.0% New Zealand <1.2% South America – Colombia <2.5%10.5. Microbiological Standards
Microflora Source Range Bacteria: Acetic Acid Bacteria (AAB)10.6. Mesh to Micron Comparison Chart
Last updated 5.18.23
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