Welcome to GrowTime!
SKU: NITROGEN-130G
Adding product to your cart
This modest but mighty nitrogen tank is a great to pair with any 2lb or smaller extraction system. For those customers that need nitrogen to push their solvent through color remediation columns (CRC) or for those super cold dewax extractions that need the extra push to get the remaining solvent out of the cold columns. This tank will produce a continuous ~66.5 Seconds of Nitrogen @ 80PSI.
*At end of use, completely empty the tank for recycling.
Regulator/Dispenser Details (not included with tank only purchase)
Nitrogen Regulator - Adjustable via. needle valve, regulated to 80 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.
Nitrogen gas is a chemical element and a diatomic molecule with the chemical formula N2. It is a colorless, odorless, and tasteless gas that makes up about 78% of Earth's atmosphere by volume. Nitrogen gas is an essential component of the air we breathe and plays a crucial role in various natural processes and industrial applications.
In its gaseous form, nitrogen is composed of two nitrogen atoms tightly bonded together by a strong triple bond. Due to its stable molecular structure, nitrogen gas is relatively inert and does not readily react with other substances under normal conditions.
Nitrogen gas has a wide range of applications across various industries and scientific fields due to its inert nature, abundance, and unique properties. Some of the key uses of nitrogen gas include:
Food Preservation: Nitrogen gas is used to create controlled atmospheres in food packaging to extend the shelf life of perishable products. It helps prevent the growth of spoilage microorganisms and maintains the freshness of packaged foods.
Laboratory Applications: Nitrogen gas is used in laboratories as a carrier gas for chromatography, as a purge gas to remove oxygen and moisture from sensitive reactions, and for preserving and storing samples.
Welding and Metalworking: Nitrogen gas is employed as a shield gas during welding and metalworking processes to prevent oxidation and maintain the integrity of metal surfaces.
Electronics Manufacturing: In electronics manufacturing, nitrogen gas is used to create inert environments that prevent oxidation and improve the quality of soldering and component assembly.
Cryogenic Applications: Nitrogen gas, when cooled to extremely low temperatures, becomes liquid nitrogen. It is used in cryopreservation of biological samples, freezing and storing biological materials, and in various cryogenic cooling applications.
Fire Suppression: Nitrogen gas is utilized as a fire suppressant in certain situations to reduce the concentration of oxygen, effectively suppressing fires and preventing explosions.
Oil and Gas Industry: In the oil and gas industry, nitrogen gas is used for pressure testing pipelines, purging equipment, and enhancing oil recovery.
Medical and Healthcare: Nitrogen gas is used in medical applications, such as cryotherapy for skin treatments, freezing of warts and lesions, and providing a dry environment for sensitive medical instruments.
tAerospace and Aviation: Nitrogen gas is used to pressurize aircraft tires and hydraulic systems, preventing moisture and oxidation-related issues.
Fertilizer Production: Nitrogen gas is a key component in the production of ammonia-based fertilizers, which are essential for promoting plant growth in agriculture.
Diving Industry: In underwater diving, nitrogen gas is used in breathing gases such as air and nitrox.
Pneumatic Systems: Nitrogen gas is used in pneumatic systems for inflating tires, powering tools, and operating machinery.
Food and Beverage Industry: Nitrogen gas is used to dispense draft beer, wine, coffee, and other beverages, creating a foamy head and enhancing the presentation.
Pressure testing your extractor with nitrogen involves using nitrogen gas to check for leaks, verify the integrity of the equipment, and ensure its safety before performing actual extraction processes. Here's a step-by-step guide on how to pressure test your extractor using nitrogen gas:
Materials Needed:
Nitrogen gas cylinder with appropriate regulator
Pressure gauge
PTFE tape (thread seal tape)
Bubble solution or soapy water
Safety goggles and gloves
Wrench or spanner
Steps:
Preparation:
Safety Precautions:
Regulator Setup:
Sealing Threads:
Connect Nitrogen Gas:
Pressure Testing:
Leak Detection:
Release Pressure:
Final Inspection:
Documentation:
Repeat if Necessary:
Pressure testing your extractor with nitrogen gas helps ensure the safety and integrity of the equipment, minimizing the risk of leaks during actual extraction processes. Always follow proper safety guidelines and manufacturer recommendations when working with nitrogen gas and pressure testing equipment.
Using nitrogen to inject butane into a closed-loop extraction system requires careful consideration and adherence to safety protocols. Nitrogen gas can be used to pressure test the extraction system, assist in transferring butane throughout the system, and assist in the process of adsorbent filtration/color remediation. Here's a step-by-step guide on how to use nitrogen to inject butane into your closed-loop extraction setup:
Closed-loop extraction system with Pressure Relief Valve
Nitrogen-compatible hose or tubing
Butane tank
Butane-compatible hose or tubing
Nitrogen Line Connection:
Butane Line Connection:
Pressurizing the System:
Injecting Butane:
Monitoring and Safety:
Venting:
Recovery:
Using nitrogen to inject butane into a closed-loop extraction system requires a solid understanding of the equipment, processes, and safety procedures involved. Always refer to your closed-loop system's manufacturer guidelines and follow best practices for safe operation.
The nitrogen pressure required for adsorbent filtration and color remediation can vary depending on the specific equipment, setup, and the type of media you are using. It's essential to follow the manufacturer's recommendations for your particular closed-loop extraction system and adsorbent filtration equipment.
In general, nitrogen gas can be used to apply pressure to assist in pushing the solvent through the adsorbent media, enhancing the filtration and color remediation process. The pressure you need may vary based on factors such as the viscosity of the solvent, the flow rate, the type of adsorbent media, and the desired results.
It's recommended to start with a moderate nitrogen pressure and gradually increase it while monitoring the flow rate and effectiveness of the process. Generally, pressures in the range of 20 to 50 psi (pounds per square inch) are commonly used for adsorbent filtration and color remediation. However, this pressure range can be adjusted based on your specific equipment and requirements.
Keep in mind that using too high of a pressure can potentially cause channeling, uneven flow, and limited retention through the adsorbent media, affecting the quality of the filtration process. It's essential to strike a balance between achieving effective filtration and avoiding excessive pressure that could lead to inefficient results or potential safety risks. It's best to perform small-scale tests before scaling up to ensure optimal results and start off slowly when using nitrogen pressure for adsorbent filtration and color remediation.
N2
0.072 lb/ft3
Nitrogen Safety Data Sheet (SDS)
Promotions, new products and sales. Directly to your inbox.
No products in the cart.
Sign up for our newsletter to receive exclusive offers and coupons.
This part of our site is off limits for underaged visitors, please verify your age to continue browsing
