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Syloid® XDP 3150 Silica : Turn Distillate to Powder (FDA Approved Ingredient)
Syloid® XDP 3150 Silica Solid Carrier for lipid- based drug delivery systems Convert your Distillate to a Powdered Ingredient! SYLOID® XDP is engineered for transforming liquids to free-flowing solids particularly oily actives and lipid-based systems. SYLOID XDP silica provides the most complete release of loaded oils. We use this Patented silica for a variety of infusions, and to build repeatable recipes. Simply mix by hand slowly or with a machine mixer 1:1 (distillate to SYLOID). SYLOID® XDP give you the ability to create large powdered ingredient batches that can be used later. The best part is that your ratio of distillate equals the SYLOID. This makes batching and recipes easy to replicate and you don't have to be an expert at infusing. Recommended Use: Capsules, Chewable Tables, Gummy Products, Chocolates, Drinks BVV Recommends Ratio of 1:1 Volume (Distillate to SYLOID) Oil-Liquisolid Formulations Maximum daily intake: 5.4 grams/day The daily intake calculations are for adults of average 132 lbs. Benefits: FDA Approved Inactive Ingredient Stays in Suspension for edibles, delivering an equal dose into each serving! Optimum Bioavailability Complete release of your Active Ingredients! Pharmaceutical product for Infusion products Mixing by hand for small batches, or kitchen planetary mixer SLOWLY Water Based Drink Notes Does not stay suspended evenly in drinks, shaking before drinking required. Distillate can Release in hot drinks above 170F. (this does not apply to edible recipes) SYLOID® XDP Technical Data Sheet SYLOID® XDP Standard Operating Procedures - Liquid Loading Syloid® XDP is a high purity silica gel that consists of over 99% SiO2, and it meets ICH guidelines on elemental impurities, the test requirements of U.S. Pharmacopoeia-National Formulary for Silicon Dioxide and European Pharmacopoeia for Silica, Colloidal Hydrated. This product is labeled CAS # 7631-86-9 amorphous silica gel or silicon dioxide. An approved FDA Database inactive Ingredient, approved for drug products.
$163.15 - $4,859.14
Huber DW-Therm M90.200.02, Heat transfer fluid -90 to 170 °
Huber DW-Therm M90.200.02, Heat transfer fluid -90 to 170 ° DW-Therm is a mixture of isomeric triethoxysilanes and has been developed for hydraulically sealed systems. We recommend the heat transfer fluid DW-Therm for Unistats. DWTherm has a high specific heat capacity and so contributes towards an optimum heat transfer. In addition, DW-Therm covers a large temperature range, and has an impressively long service life. Advantages: Valid only for Unistats Size 10L Broad working range from -90 °C to 200 °C (hydraulically sealed systems) excellent thermooxidative stability at high temperatures Low viscosity at low temperatures Low volatility and pleasant odour Easy handling (no creeping like silicone oils) Good compatibility with silicone oils Insolubile in water and good environmental compability Safety Data Sheet Properties Working temperature °C -90 to 200 Flash Point °C 101 Fire Point °C 112 Viscosity mm2/s (kinematic at 25 °C) 2 Density g/cm3 (at 20 °C) 0,879 Pour Point °C -137 Ignition temperature °C 265 Colour yellowish, clear Thermal expansion coefficient 10-5/K 96,98 Heat conductivity W/(m·K) at 25 °C 0,116 Material incompatibility copper, aluminum,non-ferrous metals
$2,851.64
Celatom FW-50 Diatomaceous Earth 1.85 micron (Compares to Celite 545)
Celatom® FW-50 Food Codex Grade, Compare to Celite® 545 Filters particles down to 1.85 micron This filter aid is a white flux calcined diatomaceous earth. It has a fast speed filtration rating. Its applications At BVV we like to use Celatom FW-50 for CBD de-fat filtration in any of our Refinement Filters. Above our paper filter, we build a 1/4"-1/2" bed of media that we use to clarify and separate winterized waxes out of our ethanol from the winterization process. We prefer this over just the filter paper because it results in less clogging and more run time. Some other applications are wort beer, antibiotics, casein, pressed juices, lacquers, polymers, syrups, sorghum, varnish, water, corn gluten, citric juices, chemicals, resins, enzymes, enamels, kelp, plastics, shellacs, and corn syrup to name a few. Celatom FW-50 Technical Data Sheet Celatom FW-50 Food Grade Information Celatom FW-50 Safety Data Sheet
$24.12 - $141.87
Carbon Chemistry High pH Carbon
Carbon Chemistry High pH Carbon Carbon Chemistry High pH Carbon powder is some of the highest purity and quality High pH Carbon on the market. High pH Carbon is an alkaline filtration media is most commonly used at the end of a scrub to balance out the pH and can add more remediation support in a solution. Carbon Chemistry High pH Carbon - SDS
$14.17 - $35.45
Carbon Chemistry ZeoClear™ Y
Carbon Chemistry ZeoClear™ Y ZeoClear™ Y is a granular attapulgite which has been thermally activated to remove impurities and maximize adsorption capabilities. An effect media for color remediation and general product improvement with high contaminant absorptivity. Key Features: Micron Size 250-595um Attapulgite granular media, alkaline medium Easy handling, fast flow, color improvement General product improvement with high contaminant absorptivity Color Remediation In-Line Filtration Hot Scrub Recirculate Granular Media FAQ: How do I use granular media? Zeolite adsorbents can be used inline during extraction with LPG solvents or in a hot scrub with non-polar solvents of higher BP like Heptane Is this a replacement for powders? The answer depends on what your processing goals are e.g. color removal, pesticide remediation, etc. Each adsorbent for filtration media will have its own unique set of properties including pH, pore size, polarity, surface area that make certain adsorbents more suitable to certain uses. Can I mix granular media and powders? Yes, you can either mix powders with granular media or place the granular media on top a bed of powdered media. This will however result in a more restricted flow which will require additional pressure to pass your solution through your filter cake. Do I need to bake the media? Media does not need to be baked prior to use but can be only superficial water will be removed which may improve performance. To remove superficial moisture, bake for 8hrs at 200C (392F) How do I know how much media to use? This will depend on a few variables such as the amount of your starting material, the age of your starting material, and desired color of your final product. How does the media need to be stored? before and after use. Before use; Keep container tightly closed and dry; store in a cool place. After use; Store in a well-ventilated area, this media is saturated with flammable/explosive solvent and can self-ignite if not not handled properly. Is the media safe to handle without PPE (Personal Protective Equipment)? Breathing must be protected when large quantities are decanted without local exhaust ventilation. When workers face exposure to dust exceeding the occupational exposure limits they must use appropriate certified respirators. Wear a NIOSH-certified (or equivalent) particulate respirator. What micron size filters are required? / The media is larger but are there fines? The media might be large but there are fine dust particles (about 5 million per lb.) that can get carried away in your solution and require separation. We suggest stacking a 5-micron filter on top of a 1-micron filter which will help keep your flow slow as well as filtering out any fine dust particles. The media didn't work, what did I do wrong? There is an exceptionally good chance you did not restrict your solvent flow enough. Try again with a much slower flow through your filter. Another variable you might consider adjusting is solvent temperature. Colder solvent will pull less lipids and waxes which can impede the efficiency of the adsorbent. Note: Bulk Bags and Bulk sizes are non-stocked items and will be ordered as needed and carry a several week lead time and require a forklift or pallet jack
$56.75 - $11,349.81
CHEMTEK W3 Acid Activated Bleaching Clay
CHEMTEK W3 Acid Activated Bleaching Clay W3 is a highly active adsorptive clay designed for difficult to bleach oils. It has a high cation exchange capacity paired with high moisture content making it ideal for adsorption of impurities such as chlorophyll, carotenes, heavy metals, phospholipids, soaps, and other impurities. W3 SDS W3 Technical Data Sheet
$70.94 - $3,192.13
M11x1.0 Valve Dispenser for Compressed Gas
Valve Dispenser Thread Size M11x1.0 Pushpin Valve Type Our regulators are threaded and designed to fit our compressed gas tanks. Nitrogen, Argon, Helium, Nitrogen & Hydrogen Blend, and Best Whip Nitrous Oxide cylinders. This dispenser is simply a valve that will install onto the tank and will allow you to slowly or rapidly dispense the gas. The valve has a center pin, when the knob is turned clockwise it will depress the pin in the tank slowly to dispense the gas. You can even remove the valve dispenser when not in use. Compatible with CO2, Nitrogen, Argon, Nitrogen-Hydrogen mix, Nitrous Oxide and Helium. *The valve dispenser in this listing does not come with hoses, or cylinders.
$83.70 - $95.05
Indicating Molecular Sieve Beads Type 4A
Indicating Molecular Sieve Beads TYPE 4A (Blue) Description: 4A Blue Indicating Molecular Sieve is a porous, high capacity alkali metal aluminosilicate compound. Like non-indicating 4A molecular sieve, our blue indicating 4A molecular sieve has 4 Angstrom-sized pore openings that allow to adsorb all molecules adsorbed by 3A, molecular sieve, plus larger molecules like aromatic and branched-chain hydrocarbons. Handling & Storage Recommendations: Store in a dry location to prevent unintentional water adsorption. Reseal packages after opening to prevent contamination and unintentional water adsorption. We recommend that you rotate stock so the oldest material is used first. Please read the safety data sheet to ensure proper handling and always wear personal protection equipment when handling molecular sieve. Molecular Sieve 4A Indicating Technical Data Sheet Molecular Sieve 4A Indicating Technical Data Sheet
$22.70 - $1,525.13
M11x1.0 Regulator for Compressed Gas
Regulator for Compressed Gas Bare Regulator No output Fitting This regulator is designed to fit our compressed gas tanks. Nitrogen, Argon, Helium, Nitrogen & Hydrogen Blend, and Best Whip Nitrous Oxide cylinders. Adjustment knob Is turned on to start gas flow and set desired pressure. Turn clockwise to engages the pin and start the flow of gas. Counterclockwise will retract the pin and stop the flow of gas. Tank Connection: M11x1.0 Output Thread: 1/8" BSPP Made in Italy Regulator Max Pressure Output: 80 PSI Gauges Measure in BAR. Compatible with CO2, Nitrogen, Argon, Nitrogen-Hydrogen mix, Nitrous Oxide and Helium. *The regulator in this listing does not come with hoses, or cylinders or fitting for the output.
$122.01
Argon Gas 99.5% - Pure gas for preserving terpenes in flowers and concentrates
Argon Gas Beverage Grade 99.5% Pure Made in Italy Our Pure Argon gas is for preserving terpenes and maximizing shelf life, for flowers and concentrates. The pure argon gas displaces air inside your storage containers, this eliminates oxygen, carbon dioxide and humidity to prevent oxidation of your terpenes and lengthens your shelf life. For the large tank of Argon the gas can be removed using our regulator or valve dispenser that attaches to the top of the tank. Directions: Using an empty container. Point nozzle toward the bottom of your container. Apply 2-seconds per every 4oz of container volume. Immediately fill container with desired material and securely close the lid. *Note Argon is heavier than air, Tank/Cartridge Pressure 1450 PSI Tank Volume of Argon Coverage Product Sku: 26g / 14.6 Liters / 3.8 Gallons ~6.3 lbs of flower ARGON-26G 185g / 103 Liters / 27 Gallons ~31.7 lbs of flower ARGON-130G Regulator Details 14.6 Liters/ with Duster Kit - Thumb touch control button w/ Lock, regulated to 40 PSI. Made in Japan. Thread: 5/8"-18 for use with the 26g Argon Cartridge. 3.5" long nozzle. 103 Liters/ with Regulator Kit - Adjustable via. needle valve, regulated to 80 PSI. Made in Italy. Thread: M11x1 (tank connection). Output: 1/4" Brass Barb, Includes 12" Tygon Tubing. Gauges read in BAR. 103 Liters/ with M11 Valve Dispenser Kit - Includes adjustable pushpin style valve dispenser. Output: 1/4" Brass Barb, Includes 12" Tygon Tubing. NO GAUGES *All single 130g argon tanks come with a plastic nozzle for general dispensing. If the regulator is beyond your budget you can attach a tube of your choice. Nozzle tip diameter 3/8" - Recommend choosing a 3/8" Inside Diameter tube or larger and cut to your desired length. *At end of use, completely empty the tank for recycling. What Is Argon? Argon is a chemical element with the symbol "Ar" and atomic number 18. It is a noble gas, which means it belongs to a group of inert and colorless gases that are chemically stable and relatively non-reactive under normal conditions. Argon is the third most abundant gas in the Earth's atmosphere, making up about 0.93% of the air we breathe. Despite its abundance, argon is mostly used in specialized industrial applications due to its inert and non-reactive properties. It is obtained as a byproduct of the production of liquid oxygen and liquid nitrogen through the fractional distillation of air. In its natural state, argon is odorless, tasteless, and colorless. What Is Argon Used For? Argon has a variety of practical and industrial uses due to its inert and non-reactive nature. Some of the key applications of argon include: Welding: Argon is commonly used as a shielding gas in welding processes, such as TIG (Tungsten Inert Gas) and MIG (Metal Inert Gas) welding. It helps prevent oxidation and ensures clean and strong welds. Laboratory Research: Argon is used as a carrier gas in gas chromatography and as an inert atmosphere in scientific laboratories to prevent reactions with sensitive materials. Electronics and Semiconductors: Argon is used in the production of semiconductors and other electronic components, providing a controlled environment for manufacturing processes. Preservation of Perishable Goods: In the food and beverage industry, argon is used to displace oxygen and extend the shelf life of perishable goods, such as wine, by preventing oxidation and spoilage. Medical Applications: Argon is employed in laser surgery and serves as a coolant for superconducting magnets in MRI (Magnetic Resonance Imaging) machines. Deep-Sea Diving: Argon-helium mixtures are used in deep-sea diving to reduce the effects of high pressure on the human body. Lighting: Although less common now, argon was used in incandescent light bulbs to prevent the filament from oxidizing. Metal Manufacturing: Argon is used in the production of metals like titanium and other reactive metals to create a controlled atmosphere. Heat Treating: In heat-treating processes, argon is used as a protective atmosphere to prevent oxidation and maintain the desired material properties. Window Insulation: Argon is sometimes used to fill the space between double or triple-pane windows to improve insulation and energy efficiency. Astronomy: Argon is used in some types of telescopes to create a stable and controlled environment for the detectors. These applications highlight the versatility of argon in various industries, where its inertness and non-reactivity play a crucial role in maintaining controlled and stable conditions for specific processes. How Does Argon Preserve Terpenes? Argon can be used to preserve terpenes through its inert and non-reactive properties. Terpenes are volatile organic compounds responsible for the aroma and flavor of various plants. When exposed to oxygen or other reactive gases, terpenes can degrade or oxidize, leading to a loss of their aromatic and flavor characteristics. By using argon as a protective gas, you can create an oxygen-free environment that prevents terpenes from coming into contact with reactive molecules. This helps to preserve the integrity of terpenes and maintain their original aroma and flavor profiles. When storing or handling terpene-rich products, such as essential oils or botanical extracts, introducing argon gas can help extend the shelf life and ensure that the product retains its desirable sensory attributes. Argon's inert nature means it does not chemically interact with the terpenes, preventing unwanted reactions that could lead to degradation. It forms a barrier between the terpenes and the surrounding air, effectively shielding them from oxygen and moisture, both of which can contribute to terpene degradation. Argon can be a valuable tool for terpene preservation during storage, Helping you preserve the unique terpene profiles of different strains making it crucial for maintaining product quality. How Does Argon Displace Oxygen? Argon displaces oxygen through a process called inert gas displacement or dilution. This occurs when argon, which is denser than air, is introduced into an enclosed space, pushing the lighter oxygen molecules upward and out of the area. As a result, the concentration of oxygen in the space decreases, creating an atmosphere that is less conducive to combustion and other chemical reactions. Here's how the displacement process works: Density Difference: Argon is significantly denser than air, which means it has a higher mass per unit volume. When argon is released into an enclosed space, it naturally sinks to the bottom, displacing the lighter gases like oxygen and nitrogen that make up the atmosphere. Mixing: As argon is introduced, it starts to mix with the existing air in the space. The heavier argon molecules tend to concentrate near the bottom, while the lighter oxygen molecules rise to the top. Oxygen Reduction: As argon continues to fill the space, the concentration of oxygen molecules decreases. Oxygen is gradually pushed upward and out of the area, leading to a lower oxygen content in the atmosphere. Inert Environment: The increasing presence of argon creates an inert environment where oxygen is less available to support oxidation. This is particularly useful in storing oxidizable compounds. It's important to note that while argon displaces oxygen, it does not chemically react with other gases or substances. Instead, it creates a physical barrier between oxygen and the materials that could ignite or react with it. This property makes argon a valuable tool in fire suppression systems, as well as in applications like food preservation, where a low-oxygen environment helps extend the shelf life of products. When working with argon, especially in confined spaces, proper safety measures should be followed to prevent oxygen depletion and ensure a safe working environment. How Do I Use Argon For Flower and Concentrate Storage? Using argon for flower and concentrate storage is a simple and effective method to help preserve the quality and freshness of your products. Follow these steps to properly use argon gas for storage: Prepare the Container: Start with a clean and empty container that is suitable for storing your flower or concentrate. Ensure that the container has a tight-fitting lid or cap to create a sealed environment. Position the Nozzle: Hold the argon gas canister with the nozzle pointing toward the bottom of the container. This helps ensure that the argon gas displaces any oxygen present in the container. Apply Argon Gas: Press the nozzle to release the argon gas into the container. The recommended dosage is approximately 2 seconds of spraying for every 4 ounces of container volume. This dosage helps create a protective layer of argon gas within the container. Fill the Container: Immediately after applying the argon gas, place your desired flower or concentrate into the container. The argon gas will create a blanket of protection over the material, minimizing its exposure to oxygen. Securely Close the Lid: Once the container is filled with the material, seal it tightly with the lid or cap. Make sure the container is properly closed to maintain the sealed environment. Store in a Cool, Dark Place: Store the sealed container in a cool, dark place to further protect the contents from light and heat. Proper storage conditions are essential for maintaining the quality and potency of your flower or concentrate. Using argon gas in this manner helps create an oxygen-free atmosphere within the container, reducing the risk of oxidation and degradation of your products. By minimizing oxygen exposure, you can extend the shelf life and preserve the flavors, aromas, and potency of your flower and concentrate. Remember to always follow safety precautions when handling argon gas, including proper ventilation and avoiding direct inhalation. Additionally, ensure that the argon gas canister is stored and used in accordance with manufacturer guidelines. How Can I Preserve Wine With Argon? Preserving wine with argon is a popular method to extend the shelf life of opened bottles and maintain the wine's freshness and flavor. Follow these steps to effectively use argon gas for wine preservation: Gather the Necessary Equipment: Argon gas canister with a preservation nozzle or wine preservation system An opened bottle of wine with a cork or closure Position the Nozzle: Insert the dispensing line or nozzel into the neck of the wine bottle. If using an argon gas canister with a preservation nozzle, insert the nozzle into the bottle's neck, ensuring a tight fit. If using a wine preservation system, follow the manufacturer's instructions for attaching the system to the bottle. Apply Argon Gas: Press the nozzle to release a short burst of argon gas into the bottle. The argon gas is heavier than air and will displace the oxygen present in the bottle, creating a protective layer on top of the wine. Recap or Recork: Immediately after applying the argon gas, recap the bottle with its original cork or closure. Make sure the closure is securely in place to maintain a seal. Store the Bottle: Store the wine bottle upright in a cool and dark place, away from direct sunlight and temperature fluctuations. Enjoy Over Time: When you're ready to enjoy the wine again, simply remove the closure and pour a glass. The argon gas layer will have helped protect the wine from oxidation, allowing you to savor the wine's original flavors and aromas. It's important to note that argon gas is denser than air, so it will naturally settle on top of the wine. This layer of argon forms a barrier between the wine and the oxygen, preventing oxidation and preserving the wine's quality. Using argon gas for wine preservation is a convenient and effective method to enjoy opened bottles of wine over an extended period. It's particularly useful for wines that are meant to be enjoyed gradually, as well as for special bottles that you want to savor over time without worrying about deterioration. Always follow the manufacturer's guidelines for using argon gas for wine preservation and handle the gas canister with care.
$21.21 - $191.46
Huber SilOil M20.195/235.20, Heat transfer fluid -20 to 235 °C
Huber SilOil M20.195/235.20, Heat transfer fluid -20 to 235 °C SilOil M20.195/235.20 is a low-viscosity silicone fluid which, as a result of its special property profile, is particularly suitable for use as a cold and heat transfer medium in cryostats, thermostats and heat transfer installations. SilOil M20.195/235.20 can be used in the range from -20 °C to 195 °C (for open systems) and to 235 °C in externally sealed systems (Unistats). It should be borne in mind that, at high temperatures, SilOil M20.195/235.20 can be chemically altered by oxidising media, such as air, or substances with a catalytic effect, such as acids, lyes and various metal compounds. An increase in viscosity, and possibly even gelling of the fluid owing to crosslinking reactions, must be expected in the presence of oxidising agents, while contact with products having a catalytic effect usually induces a process of depolymerisation, resulting in a drop in viscosity. Advantages: Virtually insolubile in water Non-corrosive Low setting points and vapour pressures high flash points low toxicity odourless no coking tendency under thermal stress high thermal stability resistance to ageing Safety Data Sheet Heat transfer fluid M20.195/235.20 Working temperature °C -20 to 195/235 open/closed systems: -20°C…195°C Unistats (only closed): -20°C…235°C Material: silicon oil Viscosity at 25°C: 20 mm²/s Colour colourless, clear Material incompatibility Silicone rubber
$1,234.29 - $2,213.21
BVV Mineral Oil 7 White "Clear" (USP/NF Food Grade)
BVV Mineral Oil 7 White NF (USP/NF) Food Grade White mineral oil can be used for many applications. Industrial, cosmetics, and food processing. Our Mineral Oil can be used in direct skin and food contact. Our oil is colorless, odorless and tasteless . This mineral oil can act as a non-conductive coolant, thermal fluid, lubricant, release agent, binder, defoamer, protective coating or float, sealing and polishing agent, dust control agent, and more. It has applications in three main areas: The industrial sector Cosmetics Food processing While those three sectors use this element most widely, it has a variety of other applications. White mineral oil is a standard household item, but has also found uses in some niche markets. The substance is versatile and has many properties making it useful in a range of applications. Food Grade Certified to FDA 21 CFR 172.878 BVV Mineral Oil 7 White NF - COA BVV Mineral Oil 7 White NF - Spec Sheet BVV Mineral Oil 7 White NF - SDS What is a food grade mineral oil? To use mineral oil in food preparation, it must be classified as a food-grade mineral oil. This is vital for health and safety as well as legal compliance. The Food and Drug Administration (FDA) has established standards any 'food-grade' substance must meet for both direct additions to foods and uses that may result in incidental contact with food. The requirements for purity, amount used, and processes vary based on how one uses mineral oil. The United States Pharmacopoeia (USP) and the National Formulary (NF) first created guidelines for the use of mineral oil in manufacturing. The FDA requires that food-grade mineral oil meet USP XX test requirements for readily carbonizable substances, which USP released in 1980, and USP XVII test requirements for sulfur compounds. It also needs to meet the specifications in Volume 45 of the Journal of the Association of Official Analytical Chemists. Mineral oil used as a lubricant for food-processing machinery must be registered with NSF International, an independent global food safety organization, as lubricants for incidental food contact to be used in food-processing plants under the jurisdiction of the U.S. Department of Agriculture (USDA). Other organizations oversee mineral oil use in other industries. For example, the Association of American Feed Control Officials (AAFCO) governs its use as a dust control agent for animal feeds. This classification is different, however, from food-grade mineral oil. Mineral oil used in the production of pharmaceuticals must be considered pharmaceutical-grade. The cosmetics and medical industry use highly refined mineral oil to avoid irritating the skin, eyes, and other body parts. Mineral oil chemical formula Mineral oils coming from crude petroleum oils vary in their make-up and contain complex structures. They include mixtures of straight and branched-chain paraffinic, naphthenic, and aromatic hydrocarbons. Alkanes, which are acyclic saturated hydrocarbons, are a significant component. They are made up of hydrogen and carbon atoms in a tree structure where all the carbon-to-carbon bonds are single. Mineral oil typically contains between 15 and 40 hydrocarbons. Mineral oil attributes Understanding the physical and chemical properties of mineral oil will help you to determine how best to use it in your industrial, food-processing, or other processes. These attributes may differ depending on the type of mineral used, how you use it, and whether any other substances get added to the oil. Mineral oil is a clear, colorless, and odorless liquid. This lack of strong physical qualities helps make it valuable in a variety of applications. Manufacturers can add it to products without changing their color, scent, flavor, or other crucial aspects. Mineral oil is also generally regarded as safe for human consumption, but in limited amounts. These features enable its use in the food processing and pharmaceutical sectors. Refined mineral oil does not clog pores, which allows for its use in cosmetics. Mineral oil has a density of 0.85 grams per milliliter (g/ml), and its specific gravity is 0.845 - 0.905. Its kinematic viscosity is greater than or equal to 38.1 millimeters squared per second (mm2/s). It is insoluble in water. The substance has an initial boiling point of 424.4 degrees Fahrenheit (°F) and a boiling range that extends up to 1189.4 °F. Its flash point is 275.00 °F closed cup and 380.00 °F open cup. It has an auto-ignition temperature of 500 °F, and its heat of combustion is 31.5 kilojoules per gram (kJ/g). As mentioned above, mineral oil has an NFPA flammability rating of one, a health rating of zero, and a reactivity rating of zero, meaning it is not a high fire risk. One of the most beneficial attributes of white mineral oil is its lubrication capabilities. This is the primary reason it has so many industrial, mechanical, food-processing, and medical applications. This property plays a crucial role in many manufacturing and food production processes. Its ability to transfer heat and its non-conductivity enable mineral oil's use as a coolant in a various electronic and mechanical equipment, as well as in industrial processes. Its resistance to water and other liquids, as well as insolubility in water, allow mineral oil to function as a sealant and binder in a variety of products. Safety Mineral oil is not regarded as an especially dangerous substance, but like all chemicals, users should handle it with appropriate care and precautions. A Material Safety Data Sheets (MSDS) for mineral oil may include the following information: Eyes: Mineral oil may cause eye irritation if it comes into contact with them. Flush eyes for several minutes and seek medical attention. Skin: It may cause skin irritation if prolonged contact with skin occurs. Remove contaminated clothing and wash affected areas or shower. Get medical attention if irritation persists. Inhalation: Inhaling mineral oil mist may irritate the respiratory tract and lungs. If this occurs, move to fresh air. Get medical attention if irritation persists. Ingestion: Ingestion can cause gastrointestinal irritation and result in nausea, vomiting, and diarrhea. If conscious, rinse mouth and drink water. Do not induce vomiting. If irritation persists, get medical attention. Mineral oil is combustible but has a low flammability rating. Having a National Fire Protection Association (NFPA) rating of one, means mineral oil must be preheated to ignite. Mineral oil has an instability rating of zero, which means it is stable even under fire conditions, and a health rating of zero, meaning it does not create any additional hazards beyond normal combustibility. You can extinguish a mineral oil fire using water fog, foam, dry chemical powder, or carbon dioxide (CO2) but should not use a water jet as this can spread the fire.If you encounter a spill of mineral oil, keep unnecessary personnel away, wear protective equipment, and absorb the spill with an absorbent material before cleaning the affected surface to remove any residue. Applications for mineral oil Mineral oil is inert, which makes it easy to use. Both consumers and businesses in a range of industries use mineral oil for a variety of applications. The three sectors named above primarily use mineral oil, but it appears across a wide range of industries and applications. Here are some of the most common uses in the industrial, personal care, and food production sectors. Use in cosmetics You can find mineral oil in many different cosmetics products including baby lotions, ointment, make-up remover, sunscreens, hair conditioner, and even tissues. Mineral oil is an ideal base material for many of these products because it is inert, colorless, and odorless. Mineral oils may appear in cosmetics as liquid oils or solid waxes. Some kinds of mineral oils are comedogenic, meaning they clog pores. Because of this, the mineral oil used in skincare and cosmetic products is noncomedogenic and does not clog pores. In fact, cosmetics companies often describe mineral oil as having moisturizing, protective, and cleansing properties for the skin. Additionally, these oils are used to give cosmetic products film-forming and water-repellent features as well as increased firmness. Use in food processing The food processing and preparation industries frequently use mineral oil. Sometimes, manufacturers add mineral oil directly to food. At other times, mineral oil assists in the production process but is not added to food directly. As mentioned earlier, all mineral oil that may come into contact with food must achieve classification as food-grade, and it must be used in accordance with all relevant laws and regulations. Food producers use mineral oil as a: Binder, release agent, or lubricant in bakery products, dehydrated foods, egg white solids, and in tablets or capsules for adding nutrients, flavoring, spices, or for use as a dietary supplement Release agent, sealing agent, and polishing agent in confectioners Protective coating on raw fruits and vegetables Defoamer in vinegar and beet sugar production Dough divider Dust control agent for grains. Binder, release agent, and lubricant in the manufacturing of yeast Mineral oil plays a role in some of the non-food products used to prepare, serve, and eat food. In these situations, the oil should also be food-grade. When applied to cookware, bakeware, and cooking utensils, mineral oil prevents food from sticking to them. People rub it onto the surface of wooden cutting boards, bowls, and utensils to prevent them from absorbing water, which can damage them. Mineral oil also prevents wood-based cooking tools from absorbing food liquids and odors, which makes cleaning easier. It acts as a lubricant for food processing equipment as well. Industrial, mechanical, and electrical uses Mineral oil serves to assist with various industrial, mechanical, and electrical purposes. It is an effective lubricant for industrial equipment and often functions as a processing aid. It is an element that helps make up various substances used in industrial processes, such as lubricants, greases, dyes, polymers, and surface treatment products. Mineral oil also acts as a thermal fluid or non-conductive coolant in various electric components. In refrigerators and oil-based electric heaters, mineral oil is used as a cooling liquid. In switchgear, it serves as an insulator and a coolant to diffuse switching arcs. In the production of plastics, mineral oil is used to control the melt flow rate of finished polymer and act as a release agent. Automotive equipment frequently uses mineral oil, primarily as a component in hydraulic liquids in automotive suspension, as well as in lubricants in brake fluids and motor oil.
$21.28 - $1,064.04
High Pressure Wood Stabilizing Chamber
High Pressure Wood Stabilizing Chamber A BVV EXCLUSIVE! This is our high pressure wood stabilizing column that can perform rapid wood stabilization @ 1600 PSI (1.5" Diameter Tube) & 450 PSI (3"/ 6" Diameter Tube). This extreme pressure makes the toughest woods easy to impregnate with wood stabilizer in as little as 15min. Then its off to the oven for a quick cure and its finished. The blanks in the photo, all 3 were stabilized and cured in less than 1 hour and 15 min, including cleanup. The system is simple. Load your blanks into the column and fill no more than 80% with resin. (make sure the blanks are submerged) Then close the system and turn on the pump set to 1600 psi. Watch the video and check out the instruction manual for details. High Pressure Wood Stabilizing Manual with Assembly The compressor you will need can be ordered from this site (GX Pumps Click This Link). BVV does not yet carry the compressor for this system. But our hose will connect directly to the compressor. If the compressor is out of your reach a high pressure hand pump can be used. (GX Hand Pumps Click This Link) The system comes with an installed safety pressure relief burst disk rated for 1800 PSI. (1.5" Diameter tubes) & 450 PSI. (3"/ 6" Diameter tube) Should you exceed the pressure of the system the disk will rupture releasing pressure. What's Included Wood stabilizing manual *Coming Soon 3/1/24 for 3"/ 6" Diameter. Braided stainless steel hose 2500 psi rated. Main column, stand and top cap valve manifold assembled. Extra safety burst disk, for 1.5" Diameter Tube. 3"/ 6" Tubes self reset. BVV warranties the main column to be free from any defects for 1 year. All other individual components may hold separate warranty periods. BVV does not warranty any claims where resin has been released/backflowed into the manifold hose or valve. Resin is water washable and should be cleaned after each use, especially if resin has accidentally backflowed into the manifold area.
$361.78 - $1,030.00
AFS Ultra Clear Cartridge
BVV™ AFS Disposable Ultra Clear Cartridge Note: Stainless Steel filter housing sold separately. (Click Here for Housing) AFS Instruction Manual Download Here AFS Filters are the first and only disposable color remediation filter cartridges for the botanical extraction industry. The Patent Pending design allows for an easy to use solution implemented into existing extraction systems; and is now available as a standard integration from many equipment manufacturers. AFS Filters are a simple solution that allows for the use of prepackaged filters, which are available in different recipes depending on the application. With the integrated 2.5µm paper filter molded and sealed into the cup there is no media leak through. Pre-packed means there's no need to be an expert in remediation filter media and how to construct filters; as well as eliminates the messy process of building/packing filters yourself. Disposable offers no need for cleaning the filter housings afterwards and trying to un-clog stainless filter screens. Less R&D investment, less mess, and less down time allows for higher throughput and more profit. The media contained in the BVV™ Ultraclear filter cartridge is Ultra-clear is a high-performance granular attapulgite that is effective in removing a wide range of polar impurities including color bodies, surfactants, water, and free fatty acids while maintaining target compounds. As a granular media Ultraclear is easy to use, safe to handle, and does not require baking or wetting before use. Using only made in the USA materials that are FDA-GRAS. Technical Specifications: Life Span: 1 Time use, Good for 5-7 lbs. of dry material. Temperature Rating: -40°C-70°C Top Seal: Induction Sealed (No glue is used) Filter: Cellulose Paper Pressure Rating: Recommended 60psi, Paper will hold 80-90 psi Max. Media: USA Made High-performance granular attapulgite Shell Material: Polypropylene Excellent compatability and Safe for chemicals in our industry (Butane, Propane, Ethanol). Pressure Method: Nitrogen Assist, unless you open blast CRC. Then you can assist with an air compressor. AFS Cup weight: 48g Media Fill Volume: 110-120g Recommend Minimum Biomass: 1lb (lesser biomass will see drastic yield losses) AFS Safety Data Sheets *Please recycle your spent Cartridges. *Yield losses under refinement are to be expected but overall potency will be retained and will proportionally increase.
$78.03
CHEMTEK W2 Heat Activated Natural Bleaching Clay
CHEMTEK W2 Heat Activated Natural Bleaching Clay W2 is a natural bleaching clay offering mild yet efficient results. It is heat activated to increase its adsorptive power without the use of any acids. The lack of acid prevents terpene isomerization and keeps the terpene profile the same while also slowing the oxidation rate of the oil thus increasing its shelf life. W2 is heavier in bulk density giving it lower oil retention. W2 SDS W2 Technical Data Sheet
$70.94 - $354.68
Duratherm S Thermal Fluid
DURATHERM S A silicone based heat transfer fluid that is ideally suited for high oxidation applications or completely exposed systems. Duratherm S is virtually impervious to oxidation at temperatures under 204°C (400°F) and offers superior protection from fluid degradation. Duratherm S is best suited for applications not prone to contamination or leaking. 316°C (600°F) maximum operating temperature Pumpable down to -50°C (-46°F) Very strong resistance to oxidation up to 204°C (400°F) Recommended for use in fully exposed systems like open baths Highly resistant to fouling for an extremely long service life Non-corrosive and non-toxic thermal fluid for added workplace safety TEMPERATURE RATINGS Max Bulk/Use Temp 316°C Max Film Temp. 366°C Pour Point ASTM D97 -66°C SAFETY DATA Flash Point ASTM D92 324°C Fire Point ASTM D92 336°C Autoignition ASTM E-659-78 437°C THERMAL PROPERTIES Thermal Expansion Coefficient 0.099 %/°C Thermal Conductivity W/m·K 38°C 0.133 204°C 0.109 204°C 0.109 260°C 0.100 288°C 0.097 316°C 0.093 Heat Capacity kJ/kg·K 38°C 1.717 204°C 2.034 204°C 2.035 260°C 2.144 288°C 2.194 316°C 2.248 PHYSICAL PROPERTIES Viscosity ASTM D445 cSt -18°C 113.08 40°C 36.14 100°C 16.57 260°C 5.19 288°C 4.54 316°C 4.03 Density ASTM D1298 kg/l 38°C 0.95 204°C 0.81 204°C 0.81 260°C 0.77 288°C 0.74 316°C 0.72 Vapor Pressure ASTM D2879 kPa 38°C 0.00 204°C 0.14 204°C 0.14 260°C 1.79 288°C 3.52 316°C 6.83 Distillation Range ASTM D2887 10% 494°C 90% 679°C Note: The values quoted in the table above are typical of normal production.They do not constitute a specification.
$191.53 - $9,221.72
Scratch and Dent 20LB 99.5% High Purity Gas Tanks
Disclaimer: Tanks are discolored, scratched or dented on some portions of the tank, but is still operable and safe to use. However, the 99.5% high purity gas inside is unaffected by the exterior blemishes. (Note: Website pictures of tanks are not the actual representation/condition of the tank you may be sent.) DISCLAIMER(S): This unit is intended for LEGAL purposes only, to be used in accordance with local laws and ordinances. Use only in WELL VENTILATED AREAS! Notice: This item will ship via Ground ONLY. Quantities bought in 3 or more will ship via freight unboxed BVV™ always recommends distillation of every solvent before use. Tank contains no dip tube. Tank does not include CGA 510 fitting. Must be added through dropdown or bought separately. *Actual liquid weight is 20LB California now prohibits the retail sale of any Non-Odorized butane in quantities larger than 150ml. If you are not a retail purchaser you can call in to place an order. Permitted Sales Include the Following: Persons licensed to perform volatile solvent extraction activity under CA Bus & Prof Code Division 10 Manufacturers, wholesalers, resellers, or retailers solely for the purpose of resale
$340.49$238.35
Duratherm G Thermal Fluid - High Temp Rated 260°C (500°F)
DURATHERM G Duratherm G is a glycol based thermal fluid rated to 260°C (500°F), a proprietary additive system that not only helps the fluid last longer and run cleaner, it makes it the ideal choice for extreme oxidation environments including demanding, open bath applications. 260°C (500°F) maximum operating temperature High flash point of 249°C (480°F) Ideal for use in extreme oxidation environments like open baths Polyalkylene glycol based thermal fluid with enhanced performance TEMPERATURE RATINGS Max Bulk/Use Temp 260°C Max Film Temp. 288°C Pour Point ASTM D97 -40°C SAFETY DATA Flash Point ASTM D92 249°C Fire Point ASTM D92 263°C Autoignition ASTM E-659-78 366°C THERMAL PROPERTIES Thermal Expansion Coefficient 0.0679 %/°C Thermal Conductivity W/m·K 38°C 0.182 100°C 0.175 204°C 0.165 204°C 0.164 260°C 0.159 Heat Capacity kJ/kg·K 38°C 1.976 100°C 2.043 204°C 2.153 204°C 2.152 260°C 2.211 PHYSICAL PROPERTIES Viscosity ASTM D445 cSt 40°C 42.16 100°C 7.43 204°C 1.88 204°C 1.87 260°C 1.23 Density ASTM D1298 kg/l 38°C 0.92 100°C 0.90 204°C 0.87 204°C 0.87 260°C 0.86 Vapor Pressure ASTM D2879 kPa 38°C 0.28 100°C 0.88 204°C 2.40 204°C 2.41 260°C 3.52 Distillation Range ASTM D2887 10% 368°C 90% 514°C Specific Gravity @ 16°C 0.963 Note: The values quoted in the table above are typical of normal production.They do not constitute a specificatio
$83.70 - $3,475.88
Huber SilOil M80.055.03, Heat transfer fluid -80 to 55 °C
Huber SilOil M80.055.03, Heat transfer fluid -80 to 55 °C SilOil M80.055.03 is a low-viscosity silicone fluid which, as a result of its special property profile, is particularly suitable for use as a cold and heat transfer medium in cryostats, thermostats and heat transfer installations. The fluid can be used in the range from -80 °C to 55 °C. It should be borne in mind that, at high temperatures, SilOil M80.055.03 can be chemically altered by oxidising media, such as air, or substances with a catalytic effect, such as acids, lyes and various metal compounds. An increase in viscosity, and possibly even gelling of the fluid owing to crosslinking reactions, must be expected in the presence of oxidising agents, while contact with products having a catalytic effect usually induces a process of depolymerisation, resulting in a drop in viscosity Advantages: virtually insolubile in water non-corrosive low setting points and vapour pressures high flash points low toxicity odourless no coking tendency under thermal stress high thermal stability resistance to ageing chlorine free Safety Data Sheet Heat transfer fluid M80.055.03 Working temperature °C -80 to 55 open/closed systems: -80°C…55°C Material: silicon oil Viscosity at 25°C: 3 mm²/s Colour colourless, clear Material incompatibility Silicone rubber
$1,333.60 - $2,298.34
CHEMTEK Alumina 150
Alumina 150 is a neutral pH adsorbent used to remove moisture, free fatty acids, and phospholipids to speed up crystallization and to improve the end products’ oxidative stability. Alumina 150 SDS
$42.56 - $1,418.73
Nitrous Oxide Tank Pressure Regulator made by Best Whip
Nitrous Oxide Tank Regulator for Whip Cream Dispensers This specifically designed quick charge adapter makes connecting and disconnecting your dispenser to the regulator quick and easy. Start infusing today using this regulator to connect to your 635g N2O charger. Nitrous tanks with an M11 fitting with connect to this regulator. M11 fitting (connects to tank) Whip Cream Adapter Fitting M22x2.0 (fits whip cream dispenser) Quick Disconnect Hose (self-sealing when removed) The Best Whip N2O regulator requires specific working pressure levels depending on your recipe and the desired texture and intensity. The result is perfect consistency across different recipes with just the right amount of gas. Fats, proteins, and ingredients / flavorings are the key factors when determining the required pressure for your recipe. Nitrous Oxide Foam Pressure Table: Recipe Type and Foam Density Level Dispenser Contents Recommended Pressure (Bar) Light foam (airy whipped cream) 300-450ml 6-9 Thick foam (cold foam) 300-450ml 9-11 Cocktail foam 200-400ml 8-11 Liquid foam (sauces and soup) 300-450ml 5-7 Firm foam (deserts i.e., cakes, merengue) 200-250ml 15-16 Cocktails and Infusion Table: Intensity Level Dispenser Contents Recommended Pressure (Bar) Recommended Infusion Time Low 10-150ml 5-7 15 minutes Medium 150-250ml 7-16 30 minutes High 250-500ml 8-17 2 Hours
$83.70
LusterMax ALPHA
LusterMax ALPHA alpha by LusterMax is an activated bentonite clay with modified characteristics best suited for botanical extraction being made into the wide variety of end product types, This takes a balance of strength and aversion for precious aromatic and flavor producing compounds. Developed by an experienced extraction technician, LusterMax qualities stem from its attention to 4 variable characteristics that make up how well and absorbent media works. Mineral Composition: What is the bentonite clay composed of. Particle Size Range: What are the particle sizes and how well do they let liquid flow through. Degree Of Activation: How much surface area is unlocked via activation Post Activation pH: What is the measured pH and how this affects crystallization speed. LusterMax products are designed by extractors to be simple and of omni-use. Meaning you can ditch your complicated 4-part blend and use LusterMax to achieve the same quality results with the occasional Silica Gel additive for extremely degraded biomass. No media option on the market exists that offers this level of strength and aversion for terpenes at the price point that allows manufacturers to fully utilize the refinement of adsorbent media like LusterMax. See our Neutral version of this exact media for lighter remediation usage that is still magnitudes stronger then any other neutral clay on the market. Also our own Silica additive Si Strength+ is available to pair with your order of a bentonite clay. Now available! We are happy to introduce the LusterMax Protocol, which is a 32 page training manual of how to implement CRC in your lab or optimize your existing process to be more precise, have less variations, and keep it cleaner. SDS File
$51.07 - $408.59
Half Ton - High Purity USA 70/30% N-Butane/Propane Blend - 99.5% Guaranteed
Half Ton - High Purity USA 70/30% N-Butane/Propane Blend - 99.5% Guaranteed DISCLAIMER(S): This unit is intended for LEGAL purposes only, to be used in accordance with local laws and ordinances. Use only in WELL VENTILATED AREAS! Notice: This item will ship via Freight ONLY. This tank requires a CGA 510 fitting - Sold Separately BVV™ always recommends distillation of every solvent before use. *Actual liquid weight is 483LB California now prohibits the retail sale of any Non-Odorized butane in quantities larger than 150ml. If you are not a retail purchaser you can call in to place an order. Permitted Sales Include the Following: Medical Collectives or Cooperatives operating under CA Health & Safety Code Section 11362.775 Persons licensed to perform volatile solvent extraction activity under CA Bus & Prof Code Division 10 Manufacturers, wholesalers, resellers, or retailers solely for the purpose of resale High purity 70/30% N-Butane/Propane is USA sourced, and guaranteed to be 99.5% pure. This instrument grade solvent helps to produce a higher quality extract by reducing mystery oils and contaminants. Solvent comes in a DOT refillable LP tank with liquid withdrawal valve (Diptube). This product is clean, colorless and odorless. *Actual liquid weight is 483LB BVV™ Dual Blend SDS Due to FAA regulations, solvent tanks cannot be safely transported via means other than ground. Any order that has solvent will not be shipped in an expedited fashion. If an order with solvent is combined with any other items and chosen to be expedited, that entire order will ship via UPS Ground/Freight. We will not split up any orders and ship them separately. If a customer is wanting to expedite specific items and order solvent, 2 separate orders (1 for the solvent and 1 for the expedited items) will need to be placed in order to do so. Solvents do not ship to Hawaii, Puerto Rico, or any other US Territory outside of the contiguous 48 States. Shipping Solvent to Alaska may ONLY ship via freight and will be required to travel through Canada. We have this policy in place to ensure safety when transporting solvents, and to prevent any issue with shipping times for our customers.
$4,171.06
Hydrochloric Acid 37% ACS Reagent Grade (HCL)
Hydrochloric Acid 37% ACS Reagent Grade HCL pH: 1.1 Hydrochloric acid, solution is a colorless watery liquid with a sharp, irritating odor. Consists of hydrogen chloride, a gas, dissolved in water. Sinks and mixes with water. HCL vapors are heavier than air. It is classified as a Strong Acid and is used in many types of laboratory preparations. Chemical Formula: HCl Molecular Weight: 36.46 CAS Registry Number: 7647-01-0 Appearance Colorless, transparent liquid, fumes in air if concentrated Odor: Pungent characteristic Density 0.81 g/cm3 Boiling Point: 61C @ 36% Concentration GHS Pictograms: GHS Signal Word: Danger GHS Hazard Statements: H290, H314, H335 GHS Precautionary Statements P210, P233, P240, P305+P351+P338, P403+P23 P260, P280, P303+P361+P353, P305+P351+P338 UN Identification Number: 1789 Proper Shipping Name: Hydrochloric acid solution Transport Hazard Class: 8 Packing Group: II DOT Placard: What Is Hydrochloric Acid? Hydrochloric acid (HCl) is a strong, highly corrosive acid that is widely used in various industrial, commercial, and laboratory applications. It is a solution of hydrogen chloride gas dissolved in water, forming a clear, colorless liquid with a sharp, pungent odor. Chemically, hydrochloric acid is composed of hydrogen (H) and chlorine (Cl) atoms, with a chemical formula of HCl. In aqueous solution, hydrochloric acid dissociates into hydrogen ions (H⁺) and chloride ions (Cl⁻), making it a strong acid. How Is Hydrochloric Acid Produced? Hydrochloric acid (HCl) is typically produced on an industrial scale through the chemical reaction between hydrogen gas (H2) and chlorine gas (Cl2). This reaction is exothermic and requires the presence of a suitable catalyst to proceed efficiently. The primary method for producing hydrochloric acid involves the following steps: Preparation of Hydrogen: Hydrogen gas (H2) is produced through various methods, such as steam reforming of natural gas (methane), electrolysis of water, or as a byproduct of certain chemical processes. Steam reforming is the most common method for large-scale hydrogen production, where methane is reacted with steam in the presence of a nickel-based catalyst to produce hydrogen gas and carbon monoxide: CH4 + H2O → CO + 3H2 The produced hydrogen gas is then purified to remove impurities before use in the hydrochloric acid production process. Preparation of Chlorine: Chlorine gas (Cl2) is typically produced by the electrolysis of sodium chloride (table salt) solution, known as the chlor-alkali process. In this process, an electric current is passed through a brine solution (sodium chloride dissolved in water), resulting in the decomposition of water and the formation of chlorine gas at the anode: 2Cl⁻ → Cl2 + 2e⁻ The chlorine gas is then purified and dried to remove any water vapor before use in the hydrochloric acid production process. Hydrogen-Chlorine Reaction: Once hydrogen and chlorine gases are prepared, they are combined and reacted in a controlled manner. The reaction typically occurs in a reactor vessel equipped with a suitable catalyst, such as platinum or rhodium, to facilitate the reaction: H2 + Cl2 → 2HCl This reaction produces hydrochloric acid gas (HCl), which is then cooled and condensed to form a liquid solution of hydrochloric acid. Dissolution in Water: The hydrochloric acid gas is dissolved in water to produce a concentrated solution of hydrochloric acid. This solution can be further diluted to the desired concentration for various industrial, commercial, or laboratory applications. Overall, the production of hydrochloric acid involves the controlled reaction of hydrogen and chlorine gases in the presence of a catalyst, followed by the dissolution of the resulting hydrochloric acid gas in water. The process is typically carried out in specialized chemical plants equipped with the necessary infrastructure and safety measures to handle corrosive and hazardous materials. What Is Hydrochloric Acid Used for? Hydrochloric acid (HCl) is a versatile and widely used chemical with numerous industrial, commercial, and laboratory applications. Some common uses of hydrochloric acid include: Chemical Manufacturing: Hydrochloric acid is used in the production of a wide range of chemicals, including chlorine, vinyl chloride (used to make PVC), and various pharmaceuticals, dyes, and pigments. Steel Pickling: Hydrochloric acid is commonly used for pickling or cleaning steel surfaces to remove rust, scale, and other impurities before further processing, such as galvanizing or coating. pH Control: Hydrochloric acid is used as a pH adjuster or neutralizer in various industrial processes, wastewater treatment, and swimming pool maintenance. Food Processing: Hydrochloric acid is used in the food industry for various purposes, including adjusting acidity, flavor enhancement, and food preservation (in accordance with regulatory guidelines). Laboratory Applications: Hydrochloric acid is commonly used in laboratories for chemical analysis, titrations, and as a reagent in various chemical reactions. Household Cleaning Products: Dilute hydrochloric acid solutions are used in household cleaning products, such as toilet bowl cleaners and descaling agents. Oil and Gas Production: Hydrochloric acid is used in the oil and gas industry for various applications, including well acidization to enhance the productivity of oil and gas wells. Water Treatment: Hydrochloric acid is used in water treatment processes to control pH, remove mineral scale deposits, and neutralize alkaline substances. Textile and Leather Processing: Hydrochloric acid is used in textile and leather processing industries for desizing, bleaching, and pH adjustment. Metal Cleaning and Etching: Hydrochloric acid is used for cleaning and etching metals, such as aluminum, copper, and brass, in various manufacturing processes. Chemical Synthesis: Hydrochloric acid is used as a reactant or catalyst in various chemical synthesis processes, including the production of pharmaceuticals, plastics, and synthetic rubber. These are just a few examples of the diverse range of applications for hydrochloric acid. Its versatility, corrosive properties, and ability to adjust pH make it an essential chemical in many industries and processes. However, it's important to handle hydrochloric acid with care due to its corrosive nature and potential health hazards. Proper safety precautions, such as wearing protective equipment and following appropriate handling and storage procedures, should be observed when working with hydrochloric acid. What Are The Hazards of Hydrochloric Acid? Hydrochloric acid (HCl) is a highly corrosive and hazardous chemical that can pose several risks to human health, safety, and the environment. Some of the main hazards associated with hydrochloric acid include: Corrosive Properties: Hydrochloric acid is highly corrosive to skin, eyes, respiratory tract, and mucous membranes. Contact with concentrated hydrochloric acid can cause severe chemical burns, irritation, and tissue damage. Inhalation of hydrochloric acid vapors or mists can also cause irritation and damage to the respiratory system. Acute Toxicity: Exposure to high concentrations of hydrochloric acid vapor or mist can cause acute toxicity, leading to symptoms such as coughing, difficulty breathing, chest pain, and throat irritation. Severe exposure may result in pulmonary edema (fluid buildup in the lungs) and respiratory distress. Environmental Hazards: Spills or releases of hydrochloric acid can have adverse effects on the environment, including contamination of soil, water bodies, and aquatic ecosystems. Hydrochloric acid can be corrosive to metals and may cause damage to infrastructure and equipment if not properly contained and managed. Reactivity: Hydrochloric acid is reactive with a wide range of substances, including metals, alkalis, and organic materials. It can release hazardous gases (such as hydrogen gas) when reacting with certain metals, posing fire and explosion hazards in confined spaces. Storage and Handling Risks: Hydrochloric acid must be stored and handled with care due to its corrosive and reactive nature. Improper storage, handling, or mixing with incompatible substances can lead to accidents, spills, and exposure incidents. Health Effects: Prolonged or repeated exposure to hydrochloric acid vapor or mist may cause chronic respiratory effects, such as bronchitis, asthma, or chronic obstructive pulmonary disease (COPD). Individuals with pre-existing respiratory conditions or sensitivities may be more susceptible to the effects of hydrochloric acid exposure. Skin and Eye Damage: Contact with hydrochloric acid can cause severe chemical burns and damage to the skin and eyes. Eye contact may result in irritation, redness, and blurred vision, while skin contact may cause pain, redness, and blistering. Ingestion Hazards: Ingestion of hydrochloric acid can cause severe burns to the mouth, throat, esophagus, and stomach, leading to tissue damage, perforation, and internal bleeding. Ingestion of even small amounts of concentrated hydrochloric acid can be life-threatening and requires immediate medical attention. Overall, the hazards associated with hydrochloric acid underscore the importance of proper handling, storage, and use of this chemical in industrial, commercial, and laboratory settings. Employers and workers should be trained on the safe handling procedures, use of personal protective equipment, and emergency response protocols to minimize the risks associated with hydrochloric acid exposure. Additionally, regulatory guidelines and safety standards should be followed to ensure compliance and protect human health and the environment. Hydrochloric Acid SDS
$35.47 - $2,057.15
Huber SilOil M60.115/200.05, Heat transfer fluid -60 to 200 °C
Huber SilOil M60.115/200.05, Heat transfer fluid -60 to 200 °C SilOil M60.115/200.05 is a low-viscosity silicone fluid which, as a result of its special property profile, is particularly suitable for use as a cold and heat transfer medium in cryostats, thermostats and heat transfer installations. SilOil M60.115/200.05 can be used in the range from -60 °C to 115 °C (for open systems) and to 200 °C in externally sealed systems (Unistats). It should be borne in mind that, at high temperatures, SilOil M60.115/200.05 can be chemically altered by oxidising media, such as air, or substances with a catalytic effect, such as acids, lyes and various metal compounds. An increase in viscosity, and possibly even gelling of the fluid owing to crosslinking reactions, must be expected in the presence of oxidising agents, while contact with products having a catalytic effect usually induces a process of depolymerisation, resulting in a drop in viscosity Advantages: virtually insolubile in water non-corrosive low setting points and vapour pressures high flash points low toxicit odourless no coking tendency under thermal stress high thermal stability resistance to ageing chlorine free Safety Data Sheet Heat transfer fluid M60.115/200.05 Working temperature °C 60 to 115/200 open/closed systems: -60°C…115°C Unistats (only closed): -60°C…200°C Material: silicon oil Viscosity at 25°C: 5 mm²/s Colour colourless, clear Material incompatibility Silicone rubber
$1,234.29 - $2,213.21
Nitrogen Hydrogen 95% N2 and 5% H
Nitrogen Hydrogen 95% N2 and 5% H 99.5% Purity, Filled, Compressed Gas Made in Italy This 3"x12" compressed gas tank is filled with a high purity blend of nitrogen and hydrogen. 95% Nitrogen and 5% Hydrogen. The gas can be removed using our regulator or valve dispenser that attaches to the top of the tank. *Note Tank Pressure is 1624 PSI *At end of use, completely empty the tank for recycling. Tank Volume of Gas Product SKU: 130g / 103 Liters / 27 Gallons NITROHYDRO-130G Regulator/Dispenser Details (not included with tank only purchase) Regulator - Adjustable via. needle valve, regulated to 29 PSI. Made in Italy. Thread: M11x1 (tank connection). Output: 1/4" JIC to connect to any of our 1/4" extractor hoses or vacuum hoses. Gauges read in BAR. M11 Valve Dispenser Kit - Includes adjustable pushpin style valve dispenser. Output: 1/4" JIC Flare, NO GAUGE. Connects to any 1/4" JIC Hose.
$48.24 - $197.20
Julabo C2 Thermal Bath Fluid - 10 Liters
Julabo C2 Thermal Bath Fluid JULABO Thermal bath fluids are ideally suited for all of your temperature control applications and guarantee safe and reliable operation. Choosing the proper bath fluid is critical for best results in temperature control. Viscosity, oxidation characteristics and heat transfer of Thermal fluids are specifically matched with each JULABO temperature control unit. C2 Thermal Bath Fluid Product Data Sheet C2 Thermal Bath Fluid SDS JULABO Thermal bath fluids have been carefully selected and are optimized for maximum performance with JULABO instruments. Benefits Low toxicity Low viscosity High stability Minimum odor Good heat conductivity Low corrosion tendency Wide temperature ranges Technical Data Order no. 10 liters 8891400 Working temperature (°C) -90...+60 Flash point (°C) > +75 Fire point (°C) > +430 Viscosity (kinematic at 20 °C in mm²/s) 2 Density (at 20 °C in g/cm³) 0.873 Pour point (°C) -120 Boiling point (°C) 229 Ignition temperature (°C) 430 Color clear
$2,007.67
Liquinox - Critical Cleaning Detergent
Liquinox is a concentrated, anionic detergent for manual and ultrasonic cleaning. Free rinsing to give you reliable results without interfering residues. Extremely mild and completely soluble in hard and soft water. USDA authorized. Dilute 1:100. pH 8.5 Concentrated to save you money Replaces corrosive acids and hazardous solvents Phosphate free, biodegradable and readily disposable Free rinsing to give you reliable results and no interfering residues Use to pass your cleaning validation tests for lab accreditation and plant inspection approval Used to clean: Healthcare instruments, laboratory ware, vacuum equipment, tissue culture ware, personal protective equipment, sampling apparatus, catheters, tubing, wine glasses, clean rooms, medical devices, optical parts, electronic components, pharmaceutical apparatus, cosmetics manufacturing equipment, metal castings, forgings and stampings, industrial parts, pipes, tanks and reactors. Authorized by USDA for use in federally inspected meat and poultry plants. Passes inhibitory residue test for water analysis. Used for phosphate sensitive analysis ware. FDA certified. Used to remove: Soil, grit, grime, slime, grease, oils, blood, tissue, particulates, deposits, chemical and solvents. Surfaces cleaned:Corrosion inhibited formulation recommended for glass, metal, stainless steel, porcelain, ceramic, plastic, cement and fiberglass. Can be used on soft metals such as copper, aluminum, zinc and magnesium if rinsed promptly. Used for art restoration. Corrosion testing may be advisable. Cleaning method: Soak, brush, sponge, cloth, ultrasonic, flow through clean-inplace. Will foam—not for spray or machine use. Make a fresh 1% solution (2 1/2 Tbsp. per gal., 1 1/4 oz. per gal. or 10 ml per liter) in cold, warm or hot water. If available, use warm water. Use cold water for blood stains. For difficult soils, raise water temperature and use more detergent. Clean by soak, circulate, wipe or ultrasonic method. Not for spray machines, will foam. RINSE THOROUGHLY—preferably with running water. For critical cleaning, do final or all rinsing in distilled, deionized or purified water. For food contact surfaces, rinse with potable water. Used on a wide range of glass, ceramic, plastic and metal surfaces. Corrosion testing may be advisable. Formerly known as LIQUI-NOX.
$28.37 - $184.43
CHEMTEK W4 Pesticide Remdiation Bleaching Clay
CHEMTEK W4 Pesticide Remdiation Bleaching Clay W4 is an alkaline bleaching clay specialized for the removal of pesticides, chlorophyll, free fatty acids, and oxidized compounds. It removes pesticides through adsorption and hydrolysis. Pesticides undergo alkaline hydrolysis, in which a pH greater than 7 causes chemical degradation of certain pesticides in the presence of ions. W4 SDS W4 Technical Data Sheet
$70.94 - $3,192.13
Huber SilOil M40.165/220.10, Heat transfer fluid -40 to 220 °C
Huber SilOil M40.165/220.10, Heat transfer fluid -40 to 220 °C SilOil M40.165/220.10 is a low-viscosity silicone fluid which, as a result of its special property profile, is particularly suitable for use as a cold and heat transfer medium in cryostats, thermostats and heat transfer installations. SilOil M40.165/220.10 can be used in the range from -40 °C to 165 °C and to 220 °C in externally sealed systems (Unistats). It should be borne in mind that, at high temperatures, SilOil M40.165/220.10 can be chemically altered by oxidising media, such as air, or substances with a catalytic effect, such as acids, lyes and various metal compounds. An increase in viscosity, and possibly even gelling of the fluid owing to crosslinking reactions, must be expected in the presence of oxidising agents, while contact with products having a catalytic effect usually induces a process of depolymerisation, resulting in a drop in viscosity. Advantages: Virtually insolubile in water Non-corrosive Low setting points and vapour pressures High flash points Low toxicity No coking tendency under thermal stress High thermal stability Resistance to ageing Chlorine free Safety Data Sheet Heat transfer fluid M20.195/235.20 Working temperature °C -40 to165/220 open/closed systems: -40°C - 165°C Unistats (only closed): -40°C - 220°C Material: silicon oil Viscosity at 25°C: 10 mm²/s Colour colourless, clear Material incompatibility Silicone rubber
$1,234.29 - $2,213.21
Ms Cream 8g Food Grade Nitrous Oxide Charger 99.5% Pure Triple Filtered
Ms. Cream 8g Nitrous Oxide Cream Chargers 99.5% Purity - Food Grade Made in Europe, Triple Filtered Mr. Cream® is a true culinary gas. Trusted for it high purity and known for not adding any strange or unknown flavors to your cream that other lesser quality import gasses my leave behind. The blue body painted charger goes back to the 1930's the original brand that made its place in kitchens across the world. 8g Charger - 4.04 Gas Liters of N2O (Do not heat over 120F) SUPERIOR GAS QUALITY - Each cream whipper is filled with the purest, and highest quality E942 food grade gas. That is why you will not have a hard time making chocolate or vanilla, mint, or Bailey's flavored cream whipper. Cocktail foams, airy sauce, mousse, and hot or cold foam can be made easily, too. FOOD-GRADE & LONG SHELF LIFE - Ms Cream chargers are made with food-grade compliance and production standards. Each cream charger has a long shelf life of 5 years so you can use them over a period of time. ANTI-LEAKAGE DESIGN - Ms Cream charger canister conforms with Manufacturing International Standards such as ISO 9001, and ISO 9002. Any cream dispenser can be used with this cylinder. UNIVERSAL COMPATIBILITY - Compatible with all professional whipped cream makers in the market. From now on, you can easily finish making whipped cream in a few seconds and without leaving odors or contaminants in the dispenser. RECYCLEABLE CONTAINER - Recycle empty cartridge with other metal recycling. The cartridge is considered empty if the top is punctured and a hole is present. What Is Nitrous Oxide? Nitrous Oxide is a chemical compound with the formula N2O. It is a colorless, non-flammable gas with a slightly sweet odor and taste. Nitrous oxide is often used for various purposes due to its unique properties and effects. What is Nitrous Oxide Used For? Nitrous oxide (N2O) is most commonly used in the culinary world for various purposes, primarily for creating foams, whipped creams, and infusions. Outside the culinary world nitrous oxide is also commonly utilized as a propellant, a cryogenic refrigerant, and as a performance-enhancing additive for internal combustion engines. Here's how nitrous oxide is most commonly used in culinary applications: Whipped Cream: Nitrous oxide is perhaps most well-known in the culinary field for its use in making whipped cream. In this application, heavy cream and sweeteners are combined in a whipped cream dispenser or siphon, and nitrous oxide cartridges are used to pressurize the dispenser. When the cream is released from the dispenser, the sudden release of pressure causes the nitrous oxide to expand and whip the cream into a light and fluffy texture. This method allows for the creation of stable whipped cream that retains its texture for an extended period. Foams: Chefs use nitrous oxide to create foams from various liquids, such as fruit juices, sauces, and purees. To make a foam, the desired liquid is mixed with a gelling agent, strained, and loaded into a whipped cream dispenser along with nitrous oxide. When dispensed, the nitrous oxide aerates the liquid, resulting in a light and airy foam that can be used as a garnish or flavor enhancer. Infusions: Nitrous oxide can be used to infuse liquids with the flavors of herbs, spices, fruits, or other aromatic ingredients. For example, herbs like basil or spices like cinnamon can be placed in a whipped cream dispenser along with a liquid (e.g., oil or alcohol) and nitrous oxide. The pressurized nitrous oxide infuses the liquid with the flavors and aromas of the added ingredients quickly. Cocktails: Some bartenders use nitrous oxide to create foam or froth on cocktails, adding a unique visual and textural element to drinks. This technique is especially popular in molecular mixology. Sauces and Dressings: Nitrous oxide can be used to create light and airy sauces or dressings. By adding nitrous oxide to a mixture of liquids and ingredients, chefs can achieve a desired texture and consistency. Desserts: Nitrous oxide can be used to create innovative desserts, such as foamy fruit purees, mousse-like textures, and light, airy soufflés. It's essential to use food-grade nitrous oxide and follow proper safety precautions when using it in culinary applications. The use of nitrous oxide cartridges and whipped cream dispensers is common in professional kitchens and home cooking to achieve these culinary effects. What Are The Hazards Of Nitrous Oxide? Nitrous oxide (N2O), while commonly used in various applications can pose certain hazards if not used properly. Here are some potential hazards associated with nitrous oxide: Asphyxiation: The most significant hazard of nitrous oxide in culinary use is the risk of asphyxiation. Nitrous oxide can displace oxygen in an enclosed space, leading to oxygen deprivation if inhaled in high concentrations. This can result in dizziness, loss of consciousness, and even death. Frostbite: Nitrous oxide is stored as a compressed liquid and is extremely cold when released. Contact with liquid nitrous oxide can cause frostbite or cold burns to the skin. Care should be taken when handling nitrous oxide cartridges or dispensers. Is Nitrous Oxide Flammable? Nitrous oxide (N2O) is not flammable in the typical sense because it does not support combustion. However, it can contribute to the combustion of other substances. Here's a more detailed explanation: Non-Flammable: Nitrous oxide itself does not burn or catch fire. It is an oxidizer, meaning it can support the combustion of other substances by providing oxygen. When nitrous oxide is used in applications like rocket propulsion or automotive nitrous systems, it does not ignite by itself. Enhancing Combustion: Nitrous oxide is sometimes used in combination with fuel in internal combustion engines to increase power output. In this context, it is often referred to as "nitrous" or "NOS." When nitrous oxide is injected into the engine's intake, it provides additional oxygen, allowing more fuel to burn, resulting in increased engine power. However, it's important to note that this process is controlled and safe when used as intended in automotive applications. Safety Precautions: While nitrous oxide is generally considered safe when used according to manufacturer guidelines, improper handling or misuse can be hazardous. Nitrous oxide should not be exposed to open flames, sparks, or high temperatures, as it can decompose at elevated temperatures and pressure, potentially leading to the release of oxygen and nitrogen gases. In summary, nitrous oxide is not flammable by itself, but it can enhance the combustion of other materials when used in controlled and purposeful applications. When using nitrous oxide, it's essential to follow safety guidelines and avoid exposing it to conditions that could lead to its decomposition or unintended ignition. How Do I Use Nitrous Oxide Safely? Using nitrous oxide (N2O) safely is crucial to prevent accidents and health risks. Here are some general guidelines for using nitrous oxide safely: Follow Manufacturer's Instructions: Always follow the manufacturer's instructions for any equipment or cartridges containing nitrous oxide. Different devices or cartridges may have specific usage guidelines. Ventilation: Ensure that you use nitrous oxide in a well-ventilated area. Adequate ventilation helps disperse any gas leaks and prevents the buildup of nitrous oxide in confined spaces, reducing the risk of asphyxiation. Avoid Direct Inhalation: Never inhale nitrous oxide directly from cartridges, whipped cream dispensers, or any other source. Inhaling nitrous oxide for recreational purposes can be dangerous and is not recommended. Protective Gear: When handling nitrous oxide cartridges or equipment, especially if they contain liquid nitrous oxide, wear appropriate protective gear, such as gloves and safety glasses, to prevent frostbite or cold burns. Store Safely: Store nitrous oxide cartridges and equipment in a cool, dry place away from direct sunlight and heat sources. Keep them out of the reach of children and unauthorized individuals. No Smoking: Avoid smoking or open flames near nitrous oxide, while nitrous oxide is not flammable, it will support combustion to the same extent as oxygen. Training and Education: Ensure that individuals using nitrous oxide equipment are trained in its safe handling and usage. Leak Detection: Regularly check for leaks in nitrous oxide equipment and connections. Use a leak detection solution (soapy water) to identify leaks by observing bubbles at the connections. Proper Disposal: Dispose of used nitrous oxide cartridges and equipment according to local regulations and guidelines. Do not puncture or incinerate cartridges. Emergency Preparedness: Be prepared for emergencies by having safety equipment, such as fire extinguishers and first-aid kits, readily available in areas where nitrous oxide is used or stored. Follow Legal Regulations: Abide by local laws and regulations regarding the sale, purchase, and use of nitrous oxide. In some areas, nitrous oxide may be subject to restrictions due to its potential for misuse. Always exercise caution and prioritize safety when using nitrous oxide, whether it's for culinary, automotive, medical, or other legitimate purposes. If you have specific concerns or questions about the safe use of nitrous oxide in a particular context, consult with experts or regulatory authorities in your area.
$13.62 - $27.18
BVV™ Propylene Glycol USP 100%
BVV™ Propylene Glycol USP 100% Disclaimer: Spigots/Faucets are only compatible with 5 Gallon Jugs and must be purchased separately BVV™ brand propylene glycol is a great heat transfer fluid alternative to water for all processing equipment such as refrigerated or heated circulators and cold traps. This propylene glycol has a freezing point of -74°F and a boiling point of 370°F. BVV™ propylene glycol is considered NOT genetically modified and NOT derived from a genetically modified organism. BVV™ Propylene Glycol SDS BVV™ Propylene Glycol Specification Sheet The expiration date is 2 years from the date of manufacture and when the glycol is kept below 100F and out of direct sunlight.
$34.05 - $8,512.36
Rye Berries - Mycology Grade Organic Grain
Rye Berries Mycology Grade Organic Using Rye Berries for your grain offers some excellent advantages for your mushroom spawn. Rye berries have exceptional nutrient-rich composition. Rye berries contain high levels of carbohydrates, protein, and other essential nutrients that mushrooms need to grow and thrive. This means that you can expect robust and healthy mushroom growth when using rye berries as your spawn substrate. Rye berries are the most common and number one used substrate for grain spawn. Rye berries can be used to propagate mycelium for almost all species of mushrooms. Rye berries are also easy to sterilize and have good moisture retention. Prior To Use: Wash grain to separate dust and debris. Product Information : This grain is sourced from the heartland of America, direct from the grain bins of the Midwest. This grain may contain weevils and lesser grain weevils. This is not uncommon for raw unwashed grain. During autoclave operations these hitchhikers will die off and are not commonly perceived as harmful in the mycology community. There Also there may be some small debris like stems and other grains that made their way in during the harvesting process.
$13.41 - $1,281.11
Carbon Chemistry ZeoClear™ L
Carbon Chemistry ZeoClear™ L Ideal for general product improvement, ZeoClear™ L is a highly effective media for color remediation and contaminant adsorption. It is commonly used for in-line color remediation from non-polar hydrocarbon solutions such as extracts in butane or propane. ZeoClear™ L can be used alone or tuned for less aggressive adsorption by combining with ZeoClear™ Y. ZeoClear™ L is a durable, naturally occurring granular attapulgite that has been thermally activated at high temperature to increase the porous surface area of its granules. This calcined magnesium aluminum silicate is a clay medium with an approximate grain size of 0.25mm and a neutral pH of 6.7. Download SDS
$49.66 - $8,937.98
CHEMTEK Granular Activated Alumina
Granular activated alumina is neutral pH adsorbent used to remove moisture, free fatty acids, and phospholipids to speed up crystallization and to improve the end products’ oxidative stability.
$106.40 - $141.87
Ultra Clear L - Granular High Performance Bentonite for Bleaching & Decolorizing Edible Oils
Ultra:Clear® L 8/16 Mesh Made in USA, Food Grade Certified Ultra-Clear® L effectively removes color bodies, surfactants, water, free fatty acids, organic oxides, and other polar contaminants from a wide range of oils, liquids, and waxes. It is the Largest particle size in the Ultra-Clear product line. UltraClear® L is a unique, naturally occurring attapulgite that has been thermally processed to provide hard, durable granules that won’t swell or breakdown in the presence of water. All Ultra-Clear products are classified as processing aids andhave Generally Recognized As Safe (GRAS) status from theFood and Drug Administration (FDA). At BVV™ we recommend 200g per lb. of biomass. We also use this media with layering techniques & can be used with BVV™ Silica Gel and BVV™ Neutral Activated Alumina for a sugar in the oven finish! Ultra-Clear® is manufactured in 4 granule sizes, 8/16, 16/30, 30/60 & 60/90 mesh sizes. See the technical data sheet for more information from the manufacturer. Ultra:Clear® L Food Grade Certificate Ultra:Clear® L Technical Data Sheet Ultra:Clear® L Safety Data Sheet
$21.28 - $3,050.26
CHEMTEK W5 Neutral Bleaching Clay
CHEMTEK W5 Neutral Bleaching Clay W5 is a neutral bleaching clay specialized for the removal of heavy metals. While most sorbents will remove heavy metals, the acids involved in the activation process could cause desorption. By neutralizing the clay processors can take advantage of the increased surface area without any risk of desorption. W5 SDS W5 Technical Data Sheet
$56.75 - $283.75
CHEMTEK D-Wax
D-Wax is a silica with high adsorption capacity and strong affinity for phospholipids, trace metals, and soaps. It contains 50% water and citric acid to remove both hydratable and non hydratable phosphatides. D-Wax SDS
$113.50 - $652.61
Gas Plug Clear Mix #10 Extra Strength
This Extra Strength GASPLUG Clear Mix is a special mixture of minerals that electromagnetically affixes themselves to plant compounds and pigment, removing the bad stuff from extracted oil, and purifying your oil. Gas Plug Clear Mix #10 Extra Strength SDS CONTAINS: CARBON, SILICA, MAGNESIUM. * DISCLAIMER * You should only lose yield from your oil in correspondence to the amount of residual plant compound removed. If you lose more than 20% yield from gold oil, you have done it wrong. It is not uncommon to have a 50-60% cannabinoid crude oil that loses 30-40% yield under refinement. The amount of yield loss should be proportionate to the overall potency.
$141.87 - $709.36
Huber MinOil P20.190.40, Heat transfer fluid 20 to 190 °C
Huber MinOil P20.190.40, Heat transfer fluid 20 to 190 °C P20.190.40 is a high quality mineral oil based heat transfer fluid. It meets the technical safety requirements and tests according to DIN 4754 as well as the recommendations of VDI 3033 (Construction, operation and maintenance of heat transfer systems). Advantages: very good oxidation stability high thermal stability good viscosity-temperature characteristics low tendency to coke extended oil change interval Safety Data Sheet Properties Working temperature °C 20°C…190°C Flash Point °C 190 Fire Point °C not Specified Viscosity mm2/s (kinematic at 25 °C) 40 Density g/cm3 0,86 Pour Point °C > 300 Ignition temperature °C > 300 Colour light yellow Thermal expansion coefficient 10-5/K not Specified Heat conductivity W/(m·K) at 25 °C 0,135 Material incompatibility Not Specified
$624.24 - $1,901.09
Huber DW-Therm HT P20.340.32 Heat transfer fluid 20 to 340 °C
Huber DW-Therm HT 20 to 340 °C Heat transfer fluid Huber heat transfer fluids are recommended for many temperature control applications because they have the best possible thermodynamic and environmental characteristics. Safe reliable operation relies on compliance with safety standards to ensure optimal results. DW-Therm HT is a mixture of partially hydrogenated naphthalenes. It is especially suited for high temperature applications using hydraulically sealed thermostats. Please note: Valid only for Unistats Safety Data sheet Advantage: broad working range from 20 °C up to 340 °C (hydraulically sealed systems) Long lifetime at high temperatures under inert atmosphere: 3 -4 years Good thermal properties for heat transfer High thermo-oxiation stability Properties Working temperature°C 20 to 340 Flash Point °C 190 Flash Point °C approx. 218 Viscosity mm2/s (kinematic at 25 °C) 32 Density g/cm3,(at 20 °C) 1,043 Pour Point °C -30 Ignition temperature °C 385 Colour orange, clear Thermal expansion coefficient 10-5/K not specified Heat conductivity W/(m·K) at 30 °C 0,130 Material incompatibility not specified
$1,149.17 - $1,986.22
Half Ton - High Purity USA 50/25/25% N-Butane/Iso-Butane/Propane TRI-Blend - 99.5% Guaranteed
Half Ton - High Purity USA 50/25/25% N-Butane/Iso-Butane/Propane TRI-Blend - 99.5% Guaranteed DISCLAIMER(S): This unit is intended for LEGAL purposes only, to be used in accordance with local laws and ordinances. Use only in WELL VENTILATED AREAS! Notice: This item will ship via Freight ONLY. This tank requires a CGA 510 fitting - Sold Separately BVV™ always recommends distillation of every solvent before use. *Actual liquid weight is 482LB California now prohibits the retail sale of any Non-Odorized butane in quantities larger than 150ml. If you are not a retail purchaser you can call in to place an order. Permitted Sales Include the Following: Medical Collectives or Cooperatives operating under CA Health & Safety Code Section 11362.775 Persons licensed to perform volatile solvent extraction activity under CA Bus & Prof Code Division 10 Manufacturers, wholesalers, resellers, or retailers solely for the purpose of resale High purity 50/25/25% N-Butane/Iso-Butane/Propane TRI-Blend is USA sourced, and guaranteed to be 99.5% pure. This instrument grade solvent helps to produce a higher quality extract by reducing mystery oils and contaminants. Solvent comes in a DOT refillable LP tank with liquid withdrawal valve (Diptube). This product is clean, colorless and odorless. *Actual liquid weight is 482LB BVV™ Tri-Blend SDS Due to FAA regulations, solvent tanks cannot be safely transported via means other than ground. Any order that has solvent will not be shipped in an expedited fashion. If an order with solvent is combined with any other items and chosen to be expedited, that entire order will ship via UPS Ground/Freight. We will not split up any orders and ship them separately. If a customer is wanting to expedite specific items and order solvent, 2 separate orders (1 for the solvent and 1 for the expedited items) will need to be placed in order to do so. Solvents do not ship to Hawaii, Puerto Rico, or any other US Territory outside of the contiguous 48 States. Shipping Solvent to Alaska may ONLY ship via freight and will be required to travel through Canada. We have this policy in place to ensure safety when transporting solvents, and to prevent any issue with shipping times for our customers.
$4,171.06
LusterMax NEUTRAL
LusterMax Neutral Neutral by LusterMax is an activated bentonite clay, finished at a neutral pH to allow for the amazing characteristics of our Alpha product, with an overall lighter remediation that is still magnitudes stronger than any neutral clay on the market. Developed by an experienced extraction technician, LusterMax's qualities stem from its attention to 4 variable characteristics that make up how well an adsorbent media works. ● Mineral Composition: What is the bentonite clay composed of. ● Particle Size Range: What are the particle sizes and how well do they let liquid flow through. ● Degree Of Activation: How much surface area is unlocked via activation ● Post Activation pH: What is the measured pH and how this affects crystallization speed. SDS File
$51.07 - $408.59
Media Bros CRY™ MEDIUM FLOW
CRY™ MEDIUM FLOW (CRY-M™) FILTER MEDIA FOR BHO EXTRACTION (NON-REACTIVE) CRY™ Medium Flow (CRY-M™) is a finer version of CRY™ designed for sysytems operating at slightly higher PSIs that still need high flow outputs and a little extra selectivity. It is not quite powder, but a much finer grain than CRY. The smaller granule size helps prevent channeling that can sometimes occur at higher PSIs. Unlike CRX-M™, it does require pre-baking (2-4 hrs. at 200+F), but it is already mixed for you. We recommend CRY-M™ for operators who want the same effect as CRY™ but are running at higher pressures or systems with size limitations. For extracts that require additional remediation beyond CRX-M™, CRY-M™ offers a superior polish, effectively addressing color, fats, and lipids. Opt for CRY-M when aiming for effortlessly reproducible results with older biomass. Suggested use: 150–250g per lb. of biomass Packaged in: 1.5 kg pouch, 5 gallon bucket, and 100 kg drum (note: images and video of media is the high flow version) Packaged in: 1.5 kg pouch, 5 gallon bucket, and 100 kg drum. TECHNICAL SPECS Solvent Type Hydrocarbon Color Remediation Level Moderately Heavy/High Pesticide Remediation Level Medium Selectivity/Polarity Level Moderately Selective/Medium Polarity Heavy Metal Remediation Yes Moisture Remediation Level Moderate Fats/Lipids/Waxes Level Medium Crystal Growth Fast Depth Filtration No Flow Rate Moderate Flow pH Level Neutral (pH 7) Best For Slightly Aged Biomass, Medium Quality Suitable for Reruns Yes Distillation Clean-up Moderate Scrub
$63.84 - $2,837.45
Julabo C5 Thermal Bath Fluid - 10 Liters
Julabo C5 Thermal Bath Fluid JULABO Thermal bath fluids are ideally suited for all of your temperature control applications and guarantee safe and reliable operation. Choosing the proper bath fluid is critical for best results in temperature control. Viscosity, oxidation characteristics and heat transfer of Thermal fluids are specifically matched with each JULABO temperature control unit. C5 Thermal Bath Fluid SDS C5 Thermal Bath Fluid Product Data Sheet JULABO Thermal bath fluids have been carefully selected and are optimized for maximum performance with JULABO instruments. Benefits Low toxicity Low viscosity High stability Minimum odor Good heat conductivity Low corrosion tendency Wide temperature ranges Technical Data Order no. 10 liters 8891402 Working temperature (°C) -60...+110 Flash point (°C) > +135 Fire point (°C) > +443 Viscosity (kinematic at 20 °C in mm²/s) 5 Density (at 20 °C in g/cm³) 0.918 Pour point (°C) -100 Boiling point (°C) >205 Ignition temperature (°C) 443 Color clear
$2,544.34
Duratherm XLT-2 Thermal Fluid
DURATHERM XLT-2 Engineered for long-term operation in heat transfer applications requiring precise temperature control ranging from -84°C (-120°F) up to 177°C (350°F). Ideal for near-cryogenic applications Duratherm XLT-2’s economical cost and wide operating temperature also makes it well-suited for heating and cooling applications found in the food processing, pharmaceutical, chemical and botanical extraction industries. Maximum temperature: 177ºC/350°F Minimum temperature: -84ºC/-120°F Flash point 63ºC/145°F Extreme low-temperature capabilities Stable and non-corrosive Properties remain consistent over temperature range Includes free fluid analysis and tech support Standard Metric TEMPERATURE RATINGS Max Bulk/Use Temp 177°C Max Film Temp. 204°C Pour Point ASTM D97 -90°C SAFETY DATA Flash Point ASTM D92 63°C Fire Point ASTM D92 70°C Autoignition ASTM E-659-78 275°C THERMAL PROPERTIES Thermal Expansion Coefficient Thermal Conductivity W/m·K -40°C 0.119 -18°C 0.116 38°C 0.107 Heat Capacity kJ/kg·K -40°C 1.863 -18°C 1.947 38°C 2.169 PHYSICAL PROPERTIES Viscosity ASTM D445 cSt -40°C 8.68 -18°C 3.78 Density ASTM D1298 kg/l -40°C 0.81 -18°C 0.80 38°C 0.76 Vapor Pressure ASTM D2879 kPa -40°C 0.00 -18°C 0.00 38°C 0.22 Distillation Range ASTM D2887 10% -18°C 90% -18°C Note: The values quoted in the table above are typical of normal production.They do not constitute a specification.
$106.40 - $2,908.39
Welch DuoSeal Vacuum Pump Oil, Liter 1407K-11
Welch DuoSeal Vacuum Pump Oil, Liter 1407K-11 ***Note: This item has a possible 1-2 week lead time depending on stock availability.*** Use this specially fractionated oil for DuoSeal belt-driven pumps to ensure the highest vacuum performance. DuoSeal Oil performs to rigid standards for vapor pressure, vacuum level stability, and viscosity - providing the lubrication that helps enable renowned DuoSeal pump durability.
$64.74
Gas Plug Clear Mix #01
A mixture of minerals that electromagnetically affixes themselves to plant compounds and pigment, removing the bad stuff from extracted oil, and purifying your oil Gas Plug Clear Mix #01 SDS CONTAINS: CLAY, SILICA, MAGNESIUM, CARBON. * DISCLAIMER * You should only lose yield from your oil in correspondence to the amount of residual plant compound removed. If you lose more than 20% yield from gold oil, you have done it wrong. It is not uncommon to have a 50-60% cannabinoid crude oil that loses 30-40% yield under refinement. The amount of yield loss should be proportionate to the overall potency.
$113.50 - $567.49
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