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HS Code |
157405 |
| Product Name | Eco-friendly Coolant |
| Type | Coolant |
| Primary Usage | Heat transfer in engines |
| Base Material | Bio-based glycol |
| Freezing Point | -37°C |
| Boiling Point | 108°C |
| Color | Green |
| Toxicity | Low |
| Biodegradability | High |
| Corrosion Inhibitors | Organic |
| Ph Level | 7.5-8.5 |
| Compatibility | All vehicle radiators |
| Shelf Life | 5 years |
| Packaging Type | Recyclable plastic bottles |
| Renewable Content Percentage | 80% |
As an accredited Eco-friendly Coolant factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Purity 99%: Eco-friendly Coolant with 99% purity is used in automotive radiator systems, where it ensures maximum heat transfer efficiency and reduced scaling. Viscosity Grade 32: Eco-friendly Coolant of viscosity grade 32 is used in industrial chiller units, where it promotes consistent fluid flow and minimizes pump wear. Thermal Stability 180°C: Eco-friendly Coolant with thermal stability up to 180°C is used in high-performance machinery, where it prevents breakdown under elevated operating temperatures. pH Level 7.5: Eco-friendly Coolant with a pH level of 7.5 is used in closed-loop HVAC systems, where it minimizes corrosion and extends equipment lifespan. Freezing Point −40°C: Eco-friendly Coolant with a freezing point of −40°C is used in refrigerated transport vehicles, where it prevents coolant solidification during extreme cold. Boiling Point 120°C: Eco-friendly Coolant with a boiling point of 120°C is used in electric vehicle cooling circuits, where it resists vapor formation and maintains optimal battery temperature. Non-toxic Formulation: Eco-friendly Coolant with a non-toxic formulation is used in food processing equipment, where it ensures worker safety and environmental compliance. Bio-based Content 85%: Eco-friendly Coolant with 85% bio-based content is used in agricultural machinery, where it reduces environmental impact and supports sustainable farming. Electrical Conductivity <10 μS/cm: Eco-friendly Coolant with electrical conductivity below 10 μS/cm is used in data center liquid cooling, where it protects sensitive electronics from short circuits. Shelf Life 2 Years: Eco-friendly Coolant with a shelf life of 2 years is used in standby emergency generators, where it provides reliable long-term storage without degradation. |
| Packing | Eco-friendly Coolant is packaged in a sturdy, recyclable 5-liter container with a green label highlighting its biodegradable, non-toxic formula. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): 80 drums, each 200 liters, securely palletized; total net weight approximately 16,000 kg. Suitable for Eco-friendly Coolant. |
| Shipping | Eco-friendly Coolant is shipped in secure, leak-proof containers designed for chemical safety. It must be transported in accordance with local regulations, avoiding extreme temperatures and direct sunlight. Appropriate labeling and documentation are required. Spill kits and personal protective equipment (PPE) should be available during handling to ensure environmental and personnel safety. |
| Storage | **Eco-friendly Coolant** should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and sources of heat or ignition. Containers must be tightly sealed and clearly labeled. Keep away from incompatible substances such as strong acids and oxidizing agents. Ensure proper secondary containment to prevent leaks and spills, following all local environmental and safety regulations. |
| Shelf Life | Eco-friendly Coolant typically has a shelf life of 3 years if stored in sealed, original containers under cool, dry conditions. |
Competitive Eco-friendly Coolant 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!
We have spent years in the thick of plant operations, handling every stage from sourcing raw materials to shipping finished fluids worldwide. In every step, waste heat management has remained a thorny challenge for our clients. Traditional glycol- and ethylene-based coolants get the job done, but too often end up as environmental headaches on a global scale. As the industry shifted, calls grew for a solution that performed under rigorous conditions without leaving a legacy of pollution for the next generation. After countless small-batch experiments and scale-up trials in our facility, we now produce Eco-friendly Coolant — built to answer these demands directly and honestly.
The Eco-friendly Coolant carries our manufacturer mark on every drum and pail. It uses a biodegradable, low-toxicity base that sheds the worst side effects of propylene and ethylene glycol blends. Lab tests and customer trials both confirm it delivers effective thermal transfer and freeze-point protection for a wide spread of industrial and commercial systems.
By marrying organic corrosion inhibitors with our proprietary blend of renewable glycols, we cut down metal leaching, scale deposits, and the chemical degradation seen in legacy coolants using harsh silicates or borates. The formula stands up to repeated cycling: in our own test loops and in actual client heat exchangers, performance loss stays minimal over time. Our StatsLab division records data from every batch, not just test bench results — we track what actually returns to us from field use.
For years, standard coolants offered little flexibility. Facility managers stuck with single-use products crafted for temporary needs, resulting in excess disposal costs and compliance worries. Eco-friendly Coolant bridges the gap between robust industrial applications and strict stewardship standards. We refuse to outsource quality — every single liter runs through our certified reactors, under the stewardship of our veteran operators. Our crew tracks the composition, acidity, and freeze protection with direct lab sampling, not gut estimates or spot checks.
We know setups differ, so our field engineers help customers dial in concentration ratios for climate, pressure, and equipment life cycle. Low evaporation loss (confirmed with actual site sampling, not just lab data) means engine operators and chiller managers need fewer top-ups and less inventory. That steady-state operation also reduces unplanned outages or costly maintenance, which every facility manager knows can devastate a maintenance budget.
Industrial chillers, process heat exchangers, HVAC, heavy vehicle radiators — our coolant sees service in every corner of these industries. Years ago, coolant systems would gum up with sludge after just a few cycles, adding to pump wear and clogging pipes. Our biodegradable blend stays clean longer, pushing replacement intervals farther out. Fewer flushes mean fewer disposal fees, less downtime, and lower risk for workers handling spent fluids.
We’ve listened closely to plant operators faced with aging heat pumps or mixed-metal systems. Conventional coolants, mixed with local water, led to pitting and rust nightmares. We designed this coolant to stay compatible across copper, steel, and various alloys, backed by data from both site audits and direct corrosion coupon measurements. In a large refinery last year, we switched their cooling towers over to our Eco-friendly Coolant during scheduled spring maintenance; their team saw a measurable drop in corrosion rates by the following autumn, confirmed by our own on-site inspection team.
For utility clients working to meet tough regulatory discharge standards, run-off from equipment remains a real headache. Our coolant both outperforms water-based alternatives and helps operators meet their environmental goals. Since it degrades quickly and nontoxicity is confirmed with outside labs and local water authorities, they don’t sacrifice equipment safety just to check a box for regulators.
Even small shops use this coolant for electronics cooling, mold temperature control, and food processing. Our customers confirm direct compatibility with existing gaskets and system seals, eliminating early leaks and saving installation headaches. The solution does not give off the cloying odor often found in propylene glycol: technicians can spend hours over open tanks without discomfort.
Most coolant suppliers buy bulk fluids from overseas, relabel them, and push them to the next step in the chain. We take a different route: operate, test, and reformulate under one roof. This ground-up approach lets us respond instantly to feedback or evolving standards. For instance, after a series of customer requests, we swapped out a problematic additive that affected microchannel heat exchanger longevity. With every change, field technicians track systems for months to catch new corrosion patterns or fluid interactions before sign-off.
Work on the shop floor convinced us to drop borate and nitrite components entirely, after real-world dosing trials revealed unanticipated blockage in narrow-bore systems. While some brands tout exotic additives, we bet on renewable raw stocks, easily sourced within regional supply chains. By keeping sourcing and formulation local, we cut both carbon footprint and lead time. Customers recognize our drums from their distinctive markings and straight-talk batch labeling — not coded numbers with no traceability.
Many coolant manufacturers hide behind generic labeling or supply chain intermediaries. We open our books, inviting regulators, customers, and even competitors to examine our mixing process and performance test results. Several peer-reviewed studies and third-party audits sit on our website for anyone curious about the technical background. No handwaving, no wishful promises — just data from full plant runs and field returns.
Plant engineers value time-tested results. After shifting the cooling loop of an automotive plastics molder during a facility overhaul, the crew noticed temperature control drift dropped by half once our coolant replaced a common propylene glycol blend. Our techs verified all calibration and mixing processes directly with the plant, and sample returns run through our own lab instrumentation documented the difference. Operators now run longer before maintenance shutdowns or coolant changeouts.
Another key point: we recycle almost all run-off and spent coolant. Our reclamation division accepts drums and totes back in the same logistics chain that delivered fresh product. Returned fluids run through purification and reprocessing, slashing both material waste and procurement budgets for high-volume customers. This closed-loop approach sprang from direct conversations with facility managers burdened by disposal costs; our in-house service team now runs pickups throughout most industrial zones and major metro areas.
As global regulators tighten allowable chemical discharge levels, the coolant industry stands at a crossroads. Fines, remediation demands, and rising water treatment charges forced many operators into costly upgrades just to avoid spills or leaks. We adapted early, monitoring effluent patterns across our own campus and for key customers. Real-operating environments, not perfect lab setups, revealed new ways coolant additives interact with urban water infrastructure.
We now collaborate with clients to perform on-site effluent sampling and reporting—cross-checking against both local and EU/US standards. Plant visits often uncover unexpected pathways for coolant loss, from valve leaks to minor hose failures. Over the last two years, direct interventions (tightening up transfer protocols, swapping out aging infrastructure) paired with our non-toxic coolant formula helped major clients halve reportable incidents. These savings in fines and public reputation far outweigh the modest cost increase over traditional glycol products.
Tightening rules around chemical labeling and waste disposal place new burdens on facility managers everywhere. We keep our eco-friendly coolant labeled with source materials and full ingredient transparency. Long before state law forced the issue, our supply team double-checked every incoming chemical against restricted lists and hazardous ranking indices. As a result, our partners trust that additive contaminants remain far below regulatory concern, without relying on last-minute reformulation or retroactive reporting.
Our facility uses on-site stormwater treatment monitors, and we share this technology setup with interested plant maintenance teams. Independent inspectors verified our process compliance and flagged potential improvement areas—driving us to higher standards each audit cycle. Real environmental responsibility takes more than green labels or vague promises to “meet customer needs.” It comes from facing the real world, rejected batches, and every surprise spill that pushes the system to failure.
It is one thing to launch a new coolant; supporting it across years and evolving regulations requires deeper commitment. Our service techs trained in diagnostic sampling and flush procedures, so they can walk through system troubleshooting with facility staff. Many clients send monthly coolant samples back to our lab for pH, metal, and inhibitor tracking. These data trends often catch early corrosion or off-ratio mixing, letting operators act before small problems escalate.
We also maintain regular plant-side visits, working beside in-house maintenance crews during planned system changes. Simple tweaks—a new filter, adjusting makeup water, or shifting blend ratios—often give measurable gains in both energy efficiency and system life. More important, problems get solved on the shop floor, with direct feedback coming right back to our blending operations. New challenges, such as emerging compatible elastomers or ultralow-pressure reactors, get rolled into continuous product development.
Partners in remote regions sometimes lack direct access to advanced testing labs. For these clients, we distribute straightforward field kits including titration and conductivity checks—no black-box tech, just honest measurements. Our engineers stand by for troubleshooting, even for legacy systems with decades of wear. We document key lessons and new findings in accessible online reports, so customers can track the hard numbers behind every improvement. Real-world service strengthens relationships, builds trust, and supports a healthier industry over time.
The pace of regulation, waste management, and customer expectation shows no sign of slowing down. Energy costs, aging equipment, and growing interest in closed-loop industrial systems put pressure on everyone in the coolant supply chain. We respond to these changes not with marketing taglines, but by leaning on shop-floor experience and lessons from years dealing with unforeseen chemistry.
As demand rises for net-zero emissions, we built our supply contracts to favor producers who meet both environmental and human safety standards. Routine supplier visits keep corner-cutting at bay. Some batches get scrapped in the interest of hitting a tighter spec or avoiding trace contaminants—the cost of that discipline comes out of our own margin, not the planet’s future.
Major industry players—energy firms, plastics suppliers, water utilities—now look for verified clean-coolant performance, not just paperwork. Our Eco-friendly Coolant answers that need, built with direct feedback from those who run the pumps, valves, and chillers every day. Where process audits call for deeper tweaks, our team stays engaged across months or even years, refining tactics and learning from system failures as well as successes.
Field-tested reliability and open data sharing changed the relationship between suppliers and frontline engineers. Every gallon we ship comes with real-world proof, not just a spec sheet or sales claim. Industrial users need this level of confidence as the cost of missteps continues to climb.
We supply more than a fluid; we deliver experience earned through failures, fixes, and ongoing dialogue with plant operators. Our team keeps the focus on improved uptime, personnel safety, and minimized environmental impact. By pulling together supplier data, operational audits, and decades of hands-on production, our coolant evolves to meet the challenges of a changing world.
Eco-friendly Coolant has found its place inside power stations, food factories, wind farms, and downtown data centers alike. The results—backsaving maintenance crews, budget-strapped facility managers, and environmental compliance officers—reflect in fewer surprise breakdowns, cleaner sumps, and happier inspection results. Trust grows batch by batch, built on transparency, follow-through, and ownership of every step in production and support. No shortcuts, no passing off problems; just direct value for real operations and the people who run them.
