HS Code | 454057 |
| Chemical Formula | CO(NH2)2 |
| Appearance | White crystalline solid |
| Molecular Weight | 60.06 g/mol |
| Nitrogen Content | 46% minimum |
| Solubility In Water | 108 g/100 mL at 20°C |
| Melting Point | 132.7°C |
| Density | 1.32 g/cm3 |
| Biodegradability | Readily biodegradable |
| Ph Of 10 Percent Solution | 7.2-7.5 |
| Moisture Content | 0.5% maximum |
| Prill Size | 1-4 mm |
| Free Ammonia | 0.03% maximum |
As an accredited Industrial Grade Urea factory,we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging for Industrial Grade Urea (50 kg) features durable woven polypropylene bags,moisture-resistant lining,and clear printed product labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Industrial Grade Urea:27 metric tons packed in 50 kg bags,loaded efficiently for secure transport. |
| Shipping | Industrial Grade Urea is securely packaged in 25kg or 50kg polypropylene bags with inner liners,ensuring moisture protection. Palletized and shrink-wrapped for stability,it is shipped via truck,rail,or sea freight. Always store in a cool,dry,well-ventilated area away from moisture and incompatible substances during transit. |
| Storage | Industrial grade urea should be stored in a cool,dry,and well-ventilated area,away from moisture and direct sunlight. It must be kept in tightly sealed bags or containers to prevent absorption of humidity and contamination. The storage area should be free of acids,alkalis,and strong oxidizing agents to avoid chemical reactions. Proper labeling and segregation are recommended. |
| Shelf Life | Industrial Grade Urea typically has a shelf life of 1-2 years if stored in cool,dry conditions,away from moisture. |
Purity 46%:Industrial Grade Urea with 46% purity is used in fertilizer manufacturing,where it increases nitrogen content for enhanced crop yield. Particle Size 1-2 mm:Industrial Grade Urea with 1-2 mm particle size is used in urea-formaldehyde resin production,where uniform granule size ensures consistent polymerization rates. Biuret Content <1%:Industrial Grade Urea with biuret content less than 1% is used in livestock feed additives,where low biuret minimizes toxicity risk to animals. Melting Point 132°C:Industrial Grade Urea with a melting point of 132°C is used in de-icing agents,where stable melting characteristics enable fast ice dissolution. Water Solubility >99%:Industrial Grade Urea with water solubility greater than 99% is used in industrial cleaning solutions,where high solubility ensures rapid dissolution and effective cleaning. Stability Temperature up to 60°C:Industrial Grade Urea with stability temperature up to 60°C is used in NOx reduction systems for power plants,where thermal stability supports efficient SCR processes. Granular Form:Industrial Grade Urea in granular form is used in bulk fertilizer blending,where granular consistency allows for even nutrient distribution. Ash Content <0.5%:Industrial Grade Urea with ash content below 0.5% is used in adhesives production,where low ash prevents contamination and improves final product purity. |
Competitive Industrial Grade Urea prices that fit your budget—flexible terms and customized quotes for every order.
For samples,pricing,or more information,please contact us at +8615380400285or mail to sales2@liwei-chem.com.
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Tel:+8615380400285
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Industrial operations rely on dependable basic materials that deliver consistent performance under real-world conditions. Over the years,we have focused on the careful production of industrial grade urea (Model:IGU-46),refining each batch to meet the rigorous demands of manufacturing and processing plants. The strength of this material starts from its very source—our selection of raw ammonia and carbon dioxide,coupled with disciplined process management and strict quality benchmarks. Every lot of urea reflects the pride of a team that understands chemical manufacturing from the ground up—not on paper,but right in the reactor,every day.
It’s impossible to treat industrial urea as just another commodity. Standards in the chemical industry leave little room for error. Appliances,adhesives,resins,and deicing blends often hinge on quality input. To ensure this,we monitor nitrogen content,biuret concentration,moisture,and particle size. Our production delivers urea with a typical nitrogen content of 46% by weight,while keeping biuret levels low,usually under 1%,which matters for sensitive downstream processes. Moisture control remains a focus point—our urea generally contains below 0.5% water,as excess moisture clogs hoppers and interferes with chemical reactions. Granule size is tightly managed to minimize dust during transfer and feeding,with most material ranging between 2 and 4 mm. Granular form offers stronger flow properties compared to prilled or crystalline alternatives,lessening process interruptions during storage and application.
Factories use our urea for making resins,formaldehyde derivatives,melamine,bonding agents,and certain nitrogen feedstock. Resin producers call for high purity material when manufacturing particleboard,MDF,and plywood adhesives;low biuret and steady melting point help avoid equipment fouling. Urea’s reliable supply means thermal power plants and metal treating operations turn to it as a precursor in nitrogen oxide scrubbing and scrubbing solutions. In concrete additives,urea serves to moderate set times in winter. Deicing blends used at airports and distribution hubs depend on fast-dissolving,consistent granulation,which our approach delivers. Even in diesel exhaust aftertreatment (SCR),some operators require bulk industrial grade urea to feed into solution preparation. We spend time with end users,troubleshooting problems directly,whether it's plugging in feed lines or unexpected crystallization. This feedback loop drives continual improvement—our technical teams take every phone call from plant engineers seriously.
Any facility manager understands that an inconsistent batch can cascade into bigger delays or downtime. That's why,across thousands of production days,we've trimmed variability as much as possible. Even though international standards call for less than 1.5% biuret, our in-house benchmarks aim lower, cutting down surprises for customers with tough operational demands. Hand-in-hand with technical staff, we run continuous inline monitoring, regular lab analysis, and retain long-term reference samples. Investing in repeatable routines, such as washing granulators or adjusting conditions before each refill, keeps each ton close to target. Our process produces urea that flows well, blends smoothly with resins or deicer base, and holds up in bulk containers or silos. Maintenance techs in our plant also communicate directly with customer operators to resolve complaints from the shop floor, not just through paperwork. Our operators have practical experience, seen from years of routine work, allowing feedback from one shift to influence the next.
Across chemical manufacturing, minor differences in raw material quality lead to meaningful impacts downstream. Technical grade and fertilizer grade urea come off the same basic process, but there’s a sharp divergence in control after that. Fertilizer grade targets spreadability and cost per ton—nitrogen content rules everything, with less attention to parameters that matter in process industries. Technical grade aligns closer to electronics and lab work, seeking ultra-low contaminant content, which pushes up the price and narrows practical supply. Our industrial grade urea balances both: high nitrogen, tight particle control, and trace impurity management. It walks the line between the lowest cost fields and high-spec pure labs, suiting operations where large volumes, process cleanliness, and predictable melting count most. Anyone running blending tanks, adhesive reactors, or system dosing equipment benefits from supply aligned with their scale and tolerances. Unlike the fertilizer sector’s shifting quality and mixed batches, our approach builds long-term trust and smoother process runs.
Responsible manufacturing no longer means just chasing output—it’s about mitigating risks, reducing loss, and keeping environmental standards in focus. We treat water handling and off-gas scrubbing as primary projects, installing and upgrading systems to capture fugitive emissions and monitor ammonia slip. Urea production produces significant heat and effluent, especially after high pressure synthesis and granulation. We’ve invested in closed-loop cooling systems and next-generation control, trimming waste and meeting evolving local and international regulations. By cutting down corrosion and scaling inside process lines, our urea also keeps customer plants running longer, delaying capital outlays for new equipment. Plant reliability and clean material link directly to less waste and better air quality when urea is used as an NOx scavenger in industry.
From batch validation to shipping, our quality monitoring programs serve the actual plant floor. We use UV spectrometry, water content analyzers, and physical sieving to confirm every shipment matches specifications laid out during specification discussions with customers. Supply interruptions or product out-of-spec situations often cost more than any raw material price change, so we engage in rigorous documentation and traceability. Our technical teams track customer feedback, flag recurring issues, and adjust operational targets instead of sticking with paper certifications or certificates of analysis as the last line of defense. In an industry where small variances spark big headaches, this attitude has built trust over many years.
Other producers may offer fertilizer-type product at a lower price, but feedback from plant and maintenance engineers across multiple industries shows that batch reliability and fewer process interruptions outweigh the small saving. Trouble from oversized particles, dust levels that clog pneumatic feeders, or moisture swings that trigger caking build downstream headaches. Some building materials customers have switched back to our lot-traceable urea after run-ins with fine powder and hard lumps from non-specialist suppliers, reporting shorter plant cleanout times and steadier dosing in their equipment. We have worked with adhesive formulators to dial in melting consistency, and operations teams at deicing sites who demand strong flowability during winter peaks. Volume buyers rely on repeatability over time, not marketing copy or one-off discounts. Expert users want less downtime, easier blending, and transparent support during plant troubleshooting. Our team places long-term supply relationships ahead of chasing monthly spot contracts, focusing on ongoing technical support, contract reliability, and honest feedback from both sides.
Industrial users often bring special requirements, such as extreme temperature handling, slow moisturization rates, and low-ash content. One custom use case involves glass wool production, where streak-free, discoloration-proof urea gives cleaner melt and reduces rework. In composite board manufacturing, low-inert levels protect resin quality and safeguard press lines. Engineered fuel additive blenders demand minimal dust and even particle size, since flow through augers and blending tanks strongly depends on these seemingly minor details. Over time, our close contact with such specialty users has shaped our plant routines — separating batch streams, running in-house pilot tests, and keeping daily logs open for customer review. Instead of pushing a “one size fits all” product, we’ve found that listening and adapting answers more needs than any standardized brochure. An old lesson in chemical manufacturing holds true: problems in the plant rarely fit cleanly in a regulatory box, but partners who value technical depth and open lines of communication deliver better long-term results.
Shocks to global supply chains over recent years have tested every manufacturer’s planning. Feedstock prices swing, logistics lines jam, and regulatory paperwork piles up. Instead of leaning on traders or repacking third-party goods, we maintain vertical integration, sourcing ammonia and carbon dioxide directly and converting on-site in closed-loop systems. This foundation preserves both batch integrity and business flexibility. During periods of external price spikes and vessel backlog, we maintain steady contract fulfillment, supported by in-house storage and our own distribution fleet. Feedback from end users recognized these efforts, as many reported no disruptions to their own operations in times when competitors scrambled for spot material or slipped out of spec. What counts most: operational discipline and consistent performance through both easy years and periods of heavy stress.
Deep product knowledge doesn’t come from manuals or data sheets—it grows in-house, with each batch and customer experience. We have built a technical library that documents resin compatibility, foaming properties, and application feedback as they shift with every tweak in process or specification. Our chemists, engineers, and plant operators regularly meet with user teams to trade focus notes, tackle systematic dosing or quality questions, and agree on the next steps for improvement. Shared experience is put to work not only in day-to-day troubleshooting, but also in new process developments and efficiency advances. Our internal training tracks for new team members include time on the plant floor, direct talks with customers, and regular off-site visits for process benchmarking. By combining hands-on work and open learnings, we build both a reliable product and a core of technical wisdom.
Supply challenges or operational hiccups are routine facts of industrial life. We don’t sugarcoat the problems, whether a slightly off-spec batch, clumping during storage, or interrupted deliveries due to weather. Our technical and logistics teams meet these issues head-on. Sometimes it means a weekend production change, emergency bulk shipment, or running in split batches to match tighter customer specs. Chemical plants operate 24/7, and so do our support teams—sharing updates in real time, tracking orders, and investigating field complaints with the full weight of manufacturing know-how. In joint projects with adhesives producers, we’ve altered moisture targets and granulation parameters. Ice management firms, frustrated by equipment blockages, worked with our process engineers to design new feeding techniques. By committing our experienced hands and plant assets to solving live customer headaches, not only on paper but in practice, the final result is a product that proves value under all conditions.
Nothing stands still in the chemical industry. Batch performance targets strengthen, regulations tighten, and end users push for more from every shipment. This pressure drives frequent upgrades to granulation, drying, and packaging systems. Sensor arrays give us earlier warnings of variances, and new batch control software lets us adapt on the fly. Employee suggestions—often from operators spotting issues mid-shift—lead to improved scheduling, maintenance, and material handling. Data from customer sites is fed back into plant controls, creating a loop for steady improvement. Industry best practice keeps evolving, but the human eye trained by years of experience still picks up trends and patterns before any model does. We take pride in supporting this culture, knowing that each step forward translates into smoother operation, less scrap, and stronger partnerships.
Industrial grade urea occupies a middle ground in the chemical world—adaptable, dependable, and integral to wide-ranging processes. Manufacturing to these standards isn’t about matching specifications on a single day, it’s about delivering that same quality week in and week out, whatever pressures or challenges arise. Our plant teams understand these stakes; they see the consequences of marginal supply up close and build every improvement with practical use in mind. Facing supply volatility, shifting regulations, and customer needs that often defy simple lab metrics, our operations come back to a few guiding beliefs: control what you can, respond swiftly to what you cannot, and understand the people and processes depending on every bag. That’s what defines real chemical manufacturing and sustains long-term trust in industrial materials like our urea.
