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HS Code |
224820 |
| Chemical Name | Fluorinated Gas |
| Common Types | HFCs, PFCs, SF6, NF3 |
| Molecular Formula | Varies by type |
| Physical State | Gas |
| Color | Colorless |
| Odor | Odorless |
| Boiling Point | Varies, typically low |
| Density | Varies, generally heavier than air |
| Global Warming Potential | High |
| Ozone Depletion Potential | Zero |
| Flammability | Non-flammable |
| Solubility In Water | Low |
| Industrial Uses | Refrigeration, air conditioning, insulation, electronics |
| Regulatory Status | Regulated under Kyoto Protocol and F-Gas Regulation |
| Toxicity | Low acute toxicity |
As an accredited Fluorinated Gas factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Purity 99.99%: Fluorinated Gas with purity 99.99% is used in semiconductor etching processes, where it enables precise and uniform microfabrication patterns. Molecular Weight 70 g/mol: Fluorinated Gas at molecular weight 70 g/mol is used in refrigeration systems, where it delivers high energy efficiency and optimal thermal performance. Stability Temperature -50°C to 150°C: Fluorinated Gas with stability temperature range of -50°C to 150°C is used in high-performance HVAC applications, where it ensures reliable operation under extreme climate conditions. Viscosity Grade Low: Fluorinated Gas of low viscosity grade is used in medical device sterilization, where it allows rapid and thorough gas penetration for effective pathogen elimination. Moisture Content <10 ppm: Fluorinated Gas with moisture content less than 10 ppm is used in pharmaceutical aerosol propellants, where it guarantees product safety and formulation stability. Boiling Point -30°C: Fluorinated Gas with a boiling point of -30°C is used in foam blowing agents, where it achieves fine and consistent foam cell structure for enhanced insulation. Particle Size <1 micron (in suspension): Fluorinated Gas with particle size less than 1 micron is used in specialty coatings manufacturing, where it results in ultra-smooth surface finishes. Dielectric Strength >20 kV/mm: Fluorinated Gas with dielectric strength greater than 20 kV/mm is used in electrical switchgear insulation, where it provides superior arc suppression and operational safety. Ozone Depletion Potential Zero: Fluorinated Gas with zero ozone depletion potential is used in fire suppression systems, where it minimizes environmental impact while ensuring efficient fire extinguishing. Solubility Low in Water: Fluorinated Gas with low solubility in water is used in leak detection for gas pipelines, where it provides accurate and sensitive leak localization. |
| Packing | A high-pressure steel cylinder with safety valve, labeled “Fluorinated Gas,” contains 40 kg; features hazard symbols and secure cap. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Fluorinated Gas involves secure, compliant packaging and transport in 20-foot containers, ensuring safety and regulatory adherence. |
| Shipping | Fluorinated gas should be shipped in specially designed, high-pressure cylinders or containers, complying with all relevant international and local regulations for hazardous materials. Packaging must be leak-proof and clearly labeled with hazard warnings. Transport typically requires temperature control and secure handling measures to prevent leaks, accidental releases, and exposure during transit. |
| Storage | Fluorinated gas should be stored in tightly sealed, clearly labeled cylinders or pressure vessels made of compatible materials. Storage areas must be cool, dry, well-ventilated, and away from direct sunlight, heat sources, and combustible materials. Ensure gas cylinders are upright and secured to prevent tipping. Follow local regulations and handle with appropriate leak detection and safety equipment. |
| Shelf Life | Fluorinated gases generally have an indefinite shelf life when stored in sealed, original containers under recommended temperature and pressure conditions. |
Competitive Fluorinated Gas prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615651039172 or mail to sales9@bouling-chem.com.
We will respond to you as soon as possible.
Tel: +8615651039172
Email: sales9@bouling-chem.com
Flexible payment, competitive price, premium service - Inquire now!
At our manufacturing site, the journey of every kilo of fluorinated gas starts with a careful selection of raw materials, hands-on synthesis, and stringent quality checks. We have dedicated years to refining our production lines for hydrofluorocarbons such as R134a, R32, R410A, and specialty blends that support a broad range of industrial applications. Our line-up centers on fluorocarbon products trusted by refrigeration, air conditioning, foam blowing, medical, and cleaning industries. As a company that operates reactors, manages distillation, and controls every filling valve on-site, our focus never drifts far from what matters most: an end product that delivers consistent performance in real world environments.
Changes in global climate policy keep raising the bar on refrigerants with respect to environmental safety, leak tightness, performance, and lifecycle. Working daily with these gases, we have seen how their thermodynamic properties change consumer comfort, food preservation, logistics of cold-chain transport, and even the bulk manufacturing of medical devices or semiconductors. Fluorinated gases hold unique advantages in terms of chemical stability and non-flammability compared to hydrocarbons or ammonia. That stability counts in critical facilities—food warehouses, hospitals, data centers—where downtime can have real costs. Minimizing greenhouse potential stands as another goal, and handling modern formulations responsibly is at the core of our plant’s operation.
Each product leaves our facility in compliance with strict batch release protocols. Typical offerings include R134a 99.9%+ purity for use in automotive AC and high-quality aerosol propellants, as well as R22, R404A, R407C, and other blends, each made under ISO and local certification guidelines. We prioritize clarity: every cylinder we fill is traceable by lot number, undergoes moisture and acidity testing, and gets rechecked before shipping to prevent cross-contamination and off-spec batches making it beyond our gate.
We keep inventories of the most requested fluorinated gases, such as R32 in 40L cylinders or custom packages, to help industrial partners avoid costly wait times during seasonal peaks. Tanker loads for building chillers, palletized supplies for regional contractors, and returnable drums tailored to recycling programs run smoothly thanks to our logistics partners’ integration with plant scheduling. By maintaining direct custody over production, blending, and packaging, we offer assurance not found by those whose role ends at warehousing or distribution.
Anyone who has opened up a compressor, or flushed a refrigeration circuit before recharge, understands the ripple effects of refrigerant choice. For example, R410A carries a higher working pressure than R22, and systems designed for one are not safely convertible without changing core components. Our lab teams frequently run compatibility trials. In the case of medical devices, the gas used as a propellant in inhalers demands a different impurity threshold than that acceptable in automotive or commercial settings. We keep close to the developments in A2L refrigerants and low-GWP options, such as R1234yf, and monitor trends in regulatory requirements—EU F-gas rules, US EPA changes, and calls from local governments to phase down high-GWP substances ahead of schedule.
Blended gases, such as R404A and R407C, require homogeneous mixing to guarantee predictable boiling points and thermal performance across the service life of the equipment. Our factory uses automated blending and robust circulation to achieve target compositions. In the field, users see these differences in equipment capacity, energy consumption, and the ease of direct drop-in replacements. Mismatched blends or out-of-spec batches can lead to system inefficiencies, icing, or even compressor failure—lessons learned by many technical teams through frustrating downtime. Our routine includes controlled sampling for blend uniformity, real-time chromatographic analysis, and off-gas checks to guarantee the properties required for leakage and performance testing.
The biggest enemy of reliable refrigeration remains moisture, non-condensables, and acid formation inside sealed circuits. To reduce these risks, all our production and packaging areas run under strict environmental control. We use high-purity fluorinated fluids, and train our staff to avoid cross-contamination—a lesson reinforced by years of troubleshooting system failures for end-users. Where a customer requests a special moisture level or customized cylinder size, we tackle it directly in our workshop. Some of our customers run reclaimed gas recovery programs. We handle recovery, reclamation, and re-purification of returned gases in compliance with environmental and regulatory demands—reducing waste, cost, and risk for all parties in the supply chain.
Substituting older refrigerants with lower-GWP alternatives is easier said than done. For many installers, replacement means retraining and capital investment in new gauges, hoses, or entire compressor assemblies. We respond with honest advice, demonstration projects, and by supplying smaller test runs so clients can pilot new gases before committing on a full fleet. Whether a partner is upgrading cold storage, rolling out new vending machines, or retrofitting air conditioning banks in commercial centers, we remain engaged—something only possible for a producer directly responsible for every molecule shipped.
Every member of our crew receives annual training on material handling, cylinder filling, emergency response, and documented maintenance. Our QA team tests for toxic byproducts and halts release if gas purity falls below spec. Industry standards shape our plant layout: clear demarcation of storage for flammable versus non-flammable variants, dedicated filling heads and purge lines for each product grade, and onsite monitoring for emissions. We welcome regular visits from regulatory inspectors, auditors, and our customers’ technical teams to verify compliance, improving process safety through constant feedback.
Few things have taught us more than direct feedback from field engineers, who report how incorrect pressure ratings or unlabeled cylinders can derail a project at the last minute. We take labeling seriously, marking cylinders for GWP, fill date, batch, and safety symbols appropriate for the application. Our plant maintains detailed SDS and traceability reports for all products leaving the gate—meeting regulatory, environmental, and technical data needs in a way traders rarely match. As emissions rules evolve, we work with customers to offer take-back and recycling options to avoid illegal venting or unsafe disposal.
Demand for fluorinated gases never stays static. Heat pump adoption, climate policy updates, and the push for smart grid solutions continue to reshape what customers expect from producers like us. Our R&D teams experiment with alternative blends, studying both lab-scale reactions and pilot plant runs able to adapt recipe and scale on the fly. Recent projects include R454B development for high-efficiency chillers, as well as customizable cylinders for startup partners developing new spray-foam insulations. Our on-site engineering staff works with customers’ technical teams, reviewing system specs, simulating cycles, and validating product performance in actual field conditions before transitioning to mass production.
Product innovation need not mean abandoning proven solutions overnight. Legacy systems running on R22 or older blends remain in service globally. For older installations, our custom recovery and reprocessing lines clean, strip, and bring material back to usable quality—reducing both new raw material use and environmental liability for the customer. As new formulas with lower GWP emerge, we help guide conversion, tailoring deliveries with documentation and support suited to installers at every experience level. Being a direct producer, not a middleman, keeps us grounded in the nuts and bolts of what each application needs.
Unpredictable raw material costs, energy prices, and regulatory changes have pushed many refrigerant users to secure closer partnerships across the supply chain. We have built in resilience by holding inventory at different stages of production, securing long-term supplier agreements for key precursors, and investing in modular packaging capacity. Our teams track global freight trends and adjust shipment strategies to meet customers’ deadlines even during times of transport bottlenecks or regulatory holds at borders.
Working at the front of the manufacturing process gives us an inside track on regulatory updates that impact labeling, transport, and end-use registration. Communicating early with customers—about shifts in allowable content, changes in permissible batch sizes, or mounting environmental fees—ensures smoother downstream adaptation. Over the years, we have invested in on-site training for clients transitioning away from phased-out substances, helping make sense of evolving rules in practical terms. Our technical, logistics, and sales support works hand-in-hand, preventing information silos and keeping shared goals in focus.
Environmental stewardship has moved from slogan to daily protocol. Inspection and monitoring equipment at our plant tracks all emissions with full reporting, ensuring compliance with both local and export market rules. We routinely upgrade our abatement systems, employ closed-loop cooling and solvent recovery, and partner with industry recyclers who support collection and destruction of expired or reclaimed refrigerant stocks. These efforts show up in tangible data—less product loss per batch, fewer reportable incidents per year, and stronger trust with both customers and regulators.
Supporting customers in their own environmental commitments requires customization. Some clients aim to reach net-zero goals or LEED certification; others seek simple, reliable performance at minimum operational risk. We consult directly—offering drop-in replacements for phased-out refrigerants, or designing gas management systems to trace leaks, capture vented product, and repurpose or recycle byproducts. Not every plant runs the same, but shared challenges and shared responsibility prove tools more powerful than blanket advice or rigid policy imposition.
Standing at the source, managing every step from blending to final shipment, brings us closer to both the obstacles and opportunities in this sector. Our people answer calls from installers troubleshooting a puzzling low-pressure condition, engineers building prototype heat pumps, or procurement teams managing tight timelines. Direct accountability sharpens our focus: we do not pass quality issues or traceability back to a third party. Instead, difficulties find us at the point of origin, and we respond with technical documentation, on-site support, and concrete fixes—from custom batch adjustments to unforeseen logistics workarounds.
This level of involvement lets us learn lessons quickly. Failures in storage highlight the importance of detailed bulk storage standards—something that guides our own tank management and leads us to share improved handling recommendations with customers. Supply interruptions during regulatory transitions point to relationships, not just specifications, as the backbone of reliable business. By maintaining direct control, we offer more than certification or safety data—we bring genuine partnership shaped by the reality of making, not just moving, fluorinated gases.
Shifts in cooling technology, evolving global rules, and rising expectations for environmental responsibility are not abstract trends—they are forces shaping each batch, each shipment, and each customer conversation. Being a manufacturer, we measure success by the real-world service life of the gas we fill, the efficiency scores from an HVAC upgrade, or the smooth ramp of a new production line running specialty foam. Technology will keep moving the target, but decisions made on the plant floor, and insights gained from customer feedback, build the foundation for safer, more sustainable practice.
We continue to expand our portfolio, investing in plant upgrades, staff training, and close partnerships that encourage practical, real-world solutions. Gas blending, purification, and batch release have become more precise; end-use markets more demanding; and yet the fundamental principle remains: producing fluorinated gases is not simply about specifications, but about building trust, delivering on promises, and standing behind every cylinder, drum, or bulk tank that leaves our gate. Those close to the processes—producers, operators, engineers, field technicians—share a commitment that links technical progress to meaningful environmental and social benefit. This is what drives our work each day, and what defines our brand of reliability in the field of fluorinated gases.
