Is potassium sulfate soluble? Yes, potassium sulfate (K2SO4) is highly soluble in water. At 20°C, approximately 111 grams of potassium sulfate dissolve per liter of water, making it an effective source of potassium and sulfur for solution-based applications. For procurement managers and chemical engineers sourcing this essential compound, understanding solubility isn’t just a chemistry trivia question—it directly impacts dissolution efficiency, product handling, and process yield in industries ranging from specialty agriculture to glass manufacturing and aluminum recycling.
This article provides a technically rigorous, yet accessible, exploration of K2SO4 solubility. We’ll examine why potassium sulfate is soluble in water, what happens when it dissolves, and what its aqueous solution looks like. More importantly, we’ll connect these fundamental properties to practical potassium sulfate benefits that drive material selection in demanding industrial environments. If you’re evaluating sulfate of potash for your next production cycle, this knowledge will help you optimize usage and specify quality parameters with confidence.
Yes, potassium sulfate is soluble in water. The solubility of potassium sulfate at standard ambient temperature (20°C) is 111 g/L. This figure increases with temperature, reaching approximately 240 g/L at 100°C. However, K2SO4 is less soluble than potassium chloride (KCl, ~340 g/L at 20°C), a property that influences formulation decisions in fertilizer blending and liquid feed production. Despite this lower solubility compared to chloride-based potassium salts, K2SO4 remains a preferred chlorine-free potassium source for high-value crops and chloride-sensitive industrial processes.
When someone searches “is potassium sulfate soluble”, they are often moving beyond a simple binary response. The real concern is whether the dissolution behavior meets the requirements of their specific application—such as preparing liquid fertilizer concentrates, formulating pharmaceutical excipients, or leaching potassium into a glass melt. At Hailei Chemical, we supply high-purity potassium sulfate with a minimum K2O content of 50%, ensuring consistent solubility characteristics from batch to batch.
To understand dissolution, we must look at the ionic nature of potassium sulfate. Potassium sulfate is an ionic compound composed of potassium cations (K⁺) and sulfate anions (SO₄²⁻). When added to water, the polar water molecules interact with these ions through ion-dipole forces, overcoming the lattice energy holding the crystal together. This process is thermodynamically favorable because the hydration energy released when ions are surrounded by water molecules compensates for the energy required to break the ionic bonds. The result is complete dissociation into free ions: 2 K⁺ and SO₄²⁻.
The solubility is not infinite; it is governed by the solubility product (Ksp). For K2SO4, the equilibrium is established when the solution becomes saturated. Why doesn’t it dissolve continuously like potassium chloride? The larger sulfate ion has a lower charge density, which affects hydration enthalpy. Additionally, sulfate ions can form ion pairs in concentrated solutions, reducing the thermodynamic driving force for further dissolution. This is why why is potassium sulfate soluble in water is best answered: water’s high dielectric constant and the favorable energetics of ion hydration allow dissolution up to a defined limit, which is predictable and measurable.
What is potassium sulfate in water? It’s a clear, colorless solution containing separate hydrated potassium ions and sulfate ions. Unlike chloride-based salts, the solution is non-corrosive to most metals and does not contribute chloride stress to stainless steel equipment—a major advantage in industrial systems. The solution’s density increases with concentration, and a saturated solution at 20°C has a density of about 1.08 g/mL. It is odorless and has no distinct taste beyond a mildly saline character, though taste should never be a test criterion in professional settings.
From a process engineering standpoint, the aqueous solution of potassium sulfate serves as a versatile medium for delivering potassium without nitrogen or phosphorus, which is particularly valuable in fertigation and hydroponics. The sulfate ions remain fully dissolved, acting as a sulfur source alongside the potassium nutrient. This dual functionality is a cornerstone of potassium sulfate benefits in precision agriculture.
Many buyers also consider potassium nitrate or potassium chloride. Potassium chloride is more soluble but introduces chloride ions, which are detrimental to tobacco, fruit crops, and glass furnaces. Potassium nitrate provides nitrogen, which may be undesired in certain fertilizer programs. Potassium sulfate offers a balanced profile: adequate solubility, no chloride, and no hygroscopicity. In fact, solid K2SO4 is non-hygroscopic, which means it doesn’t absorb moisture from air and remains free-flowing. However, once dissolved, the solution behaves predictably and homogeneously.
Procurement managers sourcing K2SO4 often ask, “what does potassium sulfate look like?” to verify material quality against specification sheets. High-purity potassium sulfate appears as a white, crystalline powder or small colorless crystals. At Hailei Chemical, our product typically ranges from fine powder to granular forms, with particle size distribution customizable to customer requirements. The crystalline form is orthorhombic, and under magnification, clear, angular particles are visible. There is no off-coloring or odor in premium grades—yellowing or grey tints can indicate impurities such as iron or magnesium salts, which may affect solubility or application performance.
When observing dissolution, the crystals gradually disperse and disappear into the water, creating a transient shimmer as density gradients form. The time required for complete dissolution depends on water temperature, agitation, and particle size. Finely milled potassium sulfate dissolves within seconds under stirring at 25°C, while granular forms intended for slow-release soil applications are engineered to dissolve more slowly. This visual behavior is a simple but effective check of purity and crystallinity; impurities often cause turbidity or delayed dissolution.
Industrial buyers in glass manufacturing require very low iron content (typically < 10 ppm) to avoid coloring the glass. Pharmaceutical manufacturers require compliance with pharmacopeia monographs (e.g., USP, EP) and absence of heavy metals. Our product line includes technical, agricultural, and pharmaceutical grades, each with specific appearance and purity profiles. Always request a certificate of analysis to confirm that what you see aligns with the chemical specification.
Understanding solubility unlocks the full range of potassium sulfate benefits that drive adoption in demanding applications. Here’s how K2SO4’s solubility translates into practical advantages:
Whether you are formulating an NSF-certified liquid fertilizer or dosing a pharmaceutical batch, achieving complete and rapid dissolution is often a key performance criterion. Consider the following best practices:
Not all potassium sulfate on the market performs identically. The presence of residual potassium chloride or other salts can alter solubility curves and introduce undesirable reactivity. When evaluating suppliers, look for these specifications:
| Parameter | Typical Value (Hailei Chemical) | Significance |
|---|---|---|
| K2O Purity | ≥ 50% | Ensures high potassium nutrient density and minimal ballast material |
| Chloride (Cl) | ≤ 0.5% (ultra-low grades available) | Critical for chloride-sensitive applications |
| Moisture | ≤ 0.5% | Affects caking tendency and free-flow properties; non-hygroscopic |
| Iron (Fe) | ≤ 10 ppm | Essential for glass and pharmaceutical grades to avoid discoloration |
| Water Insoluble Matter | ≤ 0.05% | Directly impacts solution clarity and clogging potential in drip systems |
| pH (5% solution) | 6.5–7.5 | Neutral character minimizes corrosion and interaction with other additives |
These parameters are not just numbers on a COA; they translate directly into the real-world solubility behavior and process reliability you can expect from your potassium sulfate supply.
When sourcing potassium sulfate, solubility data is a starting point. To build a robust supply chain, consider the following evaluation criteria:
Myth 1: Higher solubility always means better fertilizer. While high solubility is crucial for foliar and hydroponic solutions, slow-release granular potassium sulfate is designed for soil application where controlled dissolution matches crop uptake. The agronomic benefit depends on the target release profile, not just solubility.
Myth 2: Potassium sulfate solutions are acidic. As the pH values show, dissolved K2SO4 is essentially neutral. It does not acidify the growing medium in the same way that some ammonium-based fertilizers do, making it safe for sensitive root zones.
Myth 3: If it doesn’t dissolve completely, it’s impure. While insolubles can indicate contamination, reaching the saturation limit at your process temperature is a natural physicochemical boundary. Precipitated K2SO4 crystals from a saturated solution are still chemically pure.
Potassium sulfate is considered a low-hazard substance. However, handling the powder requires standard dust control measures to avoid respiratory irritation. In water, it dissociates into naturally occurring ions that are not bioaccumulative and do not pose ecotoxicity concerns when discharged within regulatory limits. For applications in controlled environments like hydroponics, precise knowledge of solubility prevents over-concentration that could lead to osmotic stress on plants. Always consult the Safety Data Sheet (SDS) provided with your shipment.
Under standard conditions (25°C, agitation), fine powder dissolves within 1–2 minutes to reach 80% saturation. Complete saturation may take 10–15 minutes without heating. Granular forms take longer—up to 30 minutes depending on particle size.
Yes, but be aware of chemical compatibilities. Do not mix with calcium-containing solutions at high concentrations, as calcium sulfate (gypsum) may precipitate. Always perform a jar compatibility test before mixing large volumes. Our technical team can provide compatibility charts.
At 20°C, a solution with up to 105 g/L is safe from spontaneous crystallization. If you need higher concentrations, consider heated storage or recirculation systems, or consult with us about developing a custom formulation. For many liquid fertilizer blends, 8–10% K2O w/v is a stable target.
The question “is potassium sulfate soluble” leads to a cascade of practical decisions. From selecting the right grade for your glass furnace to designing a clog-free fertigation system, solubility is the thread connecting chemistry to performance. At Hailei Chemical, our quality control begins with rigorous solubility testing of every batch, ensuring you receive a product that behaves predictably and reliably.
With over a decade of experience in chemical manufacturing and export, we understand that procurement managers need more than a certificate of analysis—they need a partner who can advise on material selection, logistics, and compliance. Our potassium sulfate is produced under strict quality management to meet the exacting demands of global markets, from agricultural cooperatives to multinational glass manufacturers.
Understanding solubility is just the beginning. Put this knowledge into action with a consistent, high-purity source of K2SO4. Whether you need technical grade for glass manufacturing or water-soluble fine powder for liquid fertilizers, Hailei Chemical is your trusted partner. Our team is ready to provide samples, detailed specifications, and competitive pricing tailored to your volume and destination.
Experience the Hailei Chemical difference—where quality meets reliability. Request your quote today and let us help you achieve superior process efficiency and end-product quality with our potassium sulfate solutions.
In international chemical procurement, few naming ambiguities cause as much confusion as the phrase aluminium potassium sulfate. Enter this term into a search engine and you’ll encounter references to alum, potash alum, and sometimes even potassium sulfate (K2SO4) — creating a procurement headache for technical buyers across glass manufacturing, pharmaceuticals, agriculture, and water treatment. For sourcing professionals, mistaking aluminium potassium sulfate (KAl(SO4)2·12H2O) for premium potassium sulfate fertilizer can lead to costly errors in formulation, compliance failure, and supply chain waste. This comprehensive guide clarifies the chemical identities, solubility profiles, and distinct industrial roles of these two sulfates. It then focuses on why pure potassium sulfate from a reputable supplier like Hailei Chemical’s premium potassium sulfate (SOP) remains a strategic choice for high-value crop nutrition, glass fluxing, and aluminum recycling.
At the molecular level, aluminium potassium sulfate and potassium sulfate share little more than the sulfate anion. Understanding their structures immediately clarifies why one is an indispensable fertilizer and the other a workhorse in municipal water treatment.
This double sulfate of aluminum and potassium has been known for centuries. Its application spectrum extends from leather tanning to food-grade baking powder, but its defining industrial role lies in flocculation — the process of clarifying water by aggregating colloidal particles.
Unlike alum, potassium sulfate contains no aluminum and no water of crystallization. Its primary value is as a chlorine-free potassium source for premium agriculture and as a high-purity additive in demanding industrial processes. Hailei Chemical guarantees a minimum 50% K2O assay, low moisture, and consistent particle size distribution to meet the specifications of formulation-sensitive industries.
When evaluating a salt for industrial use, solubility behavior is among the first technical parameters examined. The search query “is potassium sulfate soluble” and “why is potassium sulfate soluble in water” reflects the practical needs of formulators who must predict dissolution rates, mixing compatibility, and storage stability.
Potassium sulfate is highly soluble in water, though not as hygroscopic as potassium chloride. At 20°C, approximately 111 g of K2SO4 dissolves per liter of water; solubility rises to about 120 g/L at 25°C and reaches 241 g/L at 100°C. This moderate solubility profile makes it ideal for controlled nutrient release in fertigation systems and for preparing stock solutions in glass or pharmaceutical manufacturing.
The solubility of potassium sulfate in water arises from the ionic nature of the compound and the high dielectric constant of water. When K2SO4 crystals contact water, polar water molecules hydrate the K+ and SO42− ions, overcoming the lattice enthalpy of the crystal. The resulting exothermic hydration energy is sufficient to break the ionic bonds, leading to dissolution. The absence of insoluble hydrolysis products (unlike some aluminum salts) means the solution remains clear and stable, a prerequisite for drip irrigation and pharmaceutical excipient use.
Potash alum also dissolves readily — roughly 140 g/L at 20°C — but its aqueous solution is acidic (pH ~3) due to partial hydrolysis of the aluminum ion. This acidity has both benefits (water treatment flocculation) and drawbacks (corrosivity to certain metals, incompatibility with some packaging materials). For buyers who require a neutral, non-acidic potassium salt, potassium sulfate is the unambiguous choice.
To fully appreciate why aluminium potassium sulfate generates such high search volume, one must understand its remarkably broad utility. Procurement teams sourcing for water treatment, food processing, or textile manufacturing often encounter this chemical under various trade names.
The most significant industrial use of alum is as a coagulant in drinking water purification and effluent treatment. When added to turbid water, hydrated aluminum species neutralize the negative charges on suspended particles, forming flocs that settle out. Municipalities globally consume vast tonnages; specification typically calls for Al2O3 content of 15–17% in commercial liquid alum, though potash alum powder is often preferred for small-scale plants due to easier handling.
Food-grade potassium alum (E522) acts as a firming agent for pickled vegetables, a leavening acid in baking powders, and a component of toothpaste. Pharmaceutical applications include astringent styptic pencils and adjuvant in vaccines. In all these uses, strict heavy-metal limits apply, mirroring the purity requirements that Hailei Chemical meets for its potassium sulfate customers in pharma production.
Alum tawing is an ancient technique that produces a white, soft leather used in glove making. In modern dyehouses, alum serves as a mordant, fixing natural dyes to wool and silk fibers. While synthetic alternatives exist, the low cost and predictable performance of potash alum sustain its niche.
From fire extinguisher compounds to paper sizing and fireproofing textiles, aluminium potassium sulfate retains a fragmented but essential presence. However, none of these uses overlap with the core functions of potassium sulfate — a point buyers must reinforce when issuing RFQs to avoid cross-shipments.
Shifting focus to the product that Hailei Chemical manufactures and exports at scale, the following sections detail the primary and secondary markets that depend on high-purity K2SO4.
The dominant market for potassium sulfate is agriculture. Many high-value crops — tobacco, citrus, grapes, potatoes, berries, and certain vegetables — are sensitive to chloride ions. Potassium chloride (MOP), while cheaper, introduces chloride that can reduce crop quality, burn leaves, and degrade soil structure over time. SOP’s chloride content is typically below 1.0%, making it the only safe potassium source for fertigation of such crops. Hailei Chemical’s granular SOP dissolves quickly in water, does not clog drip emitters, and supplies both potassium (50% K2O min.) and sulfur (18% S), a secondary macronutrient essential for protein synthesis and oil formation in seeds.
In specialty glass — particularly high-clarity container glass, television glass, and optical glass — potassium sulfate functions as a fining agent and stabilizer. It reduces the melting temperature of the batch, promotes bubble removal, and improves the refractive index. Glassmakers require a product with extremely low iron and heavy metals, consistent particle size (typically 200–325 mesh), and no caking. Hailei Chemical can tailor its SOP to meet these rigorous frits specifications, often supplying material that surpasses Chinese GB/T 20406-2017 standards.
In secondary aluminum production, a mixture of potassium sulfate and other halide salts forms a protective molten cover flux that prevents oxidation of the aluminum melt and absorbs inclusions. The sulfate component reacts with magnesium to form MgSO4, improving the cleanliness of the recovered metal. Recyclers value SOP with low sodium content and consistent reactivity. As aluminum recycling capacity expands in Europe and North America, the demand for premium potassium sulfate flux is rising steadily — creating a procurement opportunity for specialist importers.
Potassium sulfate appears in oral rehydration solutions, certain tablet formulations as a non-reactive filler, and as a buffering agent. The pharmaceutical industry mandates compliance with pharmacopoeial monographs (USP, EP, BP) that set limits on heavy metals, arsenic, and loss on drying. Hailei Chemical’s dedicated pharma-grade production line ensures batch-to-batch consistency and full documentation support.
In the construction sector, potassium sulfate accelerates the setting time of gypsum plaster and improves the mechanical strength of wallboard. The sulfate ion participates in the hydration reaction of hemihydrate to dihydrate, speeding up production line speeds. Wallboard manufacturers prefer a fine powder (typically < 100 µm) with minimal free moisture.
Given the phonetic similarity between “alum” and “SOP,” procurement errors occur more often than suppliers admit. To ensure you receive aluminium potassium sulfate when you actually need potassium sulfate — or vice versa — implement the following verification steps before issuing a purchase order.
Weifang Hailei Fine Chemical Co., Ltd. operates a modern SOP crystallization facility with an annual capacity exceeding 50,000 metric tons. Our production advantages translate directly into procurement benefits:
For buyers who have previously experienced shipment rejections due to mislabeled chemical identity, Hailei Chemical offers a transparent, test-based supply partnership. View detailed product specifications and packaging options on our potassium sulfate product page.
No. Potassium sulfate does not hydrolyze to form aluminum hydroxide flocs and therefore has no coagulation capacity. Conversely, potash alum cannot replace SOP as a chlorine-free potassium fertilizer because its aluminum content is phytotoxic at agronomic rates.
Yes. With a solubility of approximately 120 g/L at 25°C, potassium sulfate dissolves quickly and does not leave residues in irrigation lines when proper filtration is used. The neutral pH of the solution also prevents corrosion of metallic drip components, unlike acidic alum solutions.
SOP production requires more complex processing — either from natural ores like langbeinite via flotation or through the Mannheim process using sulfuric acid — whereas MOP is mined and refined more directly from sylvinite. The premium cost of SOP is justified by its chlorine-free composition, which preserves yield and quality in high-value crops that cannot tolerate chloride.
Weifang Hailei Fine Chemical Co., Ltd. specializes in potassium sulfate and related inorganic chemicals. While we do not produce potash alum, our technical team can recommend trusted sources if your requirement spans both products. For potassium sulfate inquiries, we invite you to contact us directly.
Whether you formulate specialty NPK blends for a fertilizer distributor, melt high-clarity glass, or produce aluminum deoxidation fluxes, the chemical identity of your raw material is non-negotiable. By understanding the clear boundary between aluminium potassium sulfate and genuine potassium sulfate, procurement professionals eliminate a major source of supply chain risk. Hailei Chemical stands ready to deliver consistent, high-purity SOP with the documentation and logistics support international buyers demand.
Request a competitive quote for granular or powder potassium sulfate, discuss your specification with our technical team, or arrange a representative sample shipment. Visit Get a Quote to start the conversation — our export desk responds within 24 hours.
For procurement managers and chemical engineers sourcing potassium sulfate (K2SO4), understanding the benefits of potassium is only the first step. The real challenge lies in identifying a supplier that delivers premium-grade material meeting exact specifications—whether for chloride-sensitive crops, pharmaceutical preparations, or flat glass manufacturing. This comprehensive guide examines the critical quality parameters, solubility behavior, and industrial applications of potassium sulfate, and provides a structured framework to evaluate suppliers, ensuring your supply chain delivers consistent value.
Potassium sulfate, often called sulfate of potash (SOP), is a white crystalline powder or granular material prized for its low chloride content and high nutrient density. As a leading Chinese chemical exporter, Weifang Hailei Fine Chemical Co., Ltd. produces K2SO4 that meets rigorous international standards. But before you place an order, you need to know what separates a reliable supplier from a costly risk. Read on to learn the specifications, avoid common confusion with alum, and make informed procurement decisions.
Potassium is one of the three primary macronutrients for plants, alongside nitrogen and phosphorus. In agriculture, the benefits of potassium include enhanced drought resistance, improved stalk strength, increased fruit size and quality, and better nitrogen utilization. Unlike potassium chloride (MOP), the sulfate form adds no harmful chlorides, making it ideal for tobacco, potatoes, citrus, grapes, and many other high-value crops. But potassium’s industrial benefits extend far beyond farming.
In glass manufacturing, potassium oxide (K2O) derived from potassium sulfate acts as a powerful flux, lowering the melting temperature of silica and reducing energy consumption. The resulting glass exhibits superior clarity, thermal shock resistance, and workability—qualities essential for flat glass, optical lenses, and specialty containers. For aluminum recyclers, potassium sulfate is a key component of salt flux formulations that separate molten aluminum from oxide dross, improving metal recovery rates by up to 5%. In the pharmaceutical sector, high-purity K2SO4 serves as an excipient and an active ingredient in osmotic laxative preparations. Even gypsum board producers incorporate potassium sulfate to enhance fire resistance and mechanical bonding. Recognizing these diverse uses underscores why buyers must demand stringent quality—every application depends on consistent composition.
When evaluating bulk potassium sulfate shipments, specification sheets reveal the true value. Here are the parameters every industrial buyer should scrutinize:
By aligning these specs with your end-use, you can compare quotations on an equal footing and avoid “cheap” suppliers who compromise on hidden parameters.
Potassium sulfate solubility in water is a key physical property that directly impacts manufacturing and formulation. At 25°C, K2SO4 dissolves to about 120 grams per liter; at 100°C, solubility rises to roughly 240 g/L. This moderate solubility is intentionally designed for controlled nutrient release in fertigation systems and for creating stable solutions in industrial batches.
For liquid fertilizer producers, achieving a concentrated SOP stock solution requires warm water (40–50°C) and continuous agitation. In contrast, potassium chloride dissolves at much higher concentrations (>340 g/L at 20°C), so substituting K2SO4 without adjusting process parameters can lead to incomplete dissolution and clogged nozzles. Understanding this characteristic helps you design mixing protocols and select the right particle size.
In the pharmaceutical sector, solubility determines the efficacy of products such as sodium sulfate potassium oral solution, a colonic lavage preparation used before colonoscopies. This medication relies on a precise blend of sodium sulfate, potassium sulfate, and magnesium sulfate; the potassium component must dissolve completely to achieve the correct osmotic balance without causing gastrointestinal discomfort. Manufacturers sourcing potassium sulfate for such formulations should request dissolution rate data and ensure a fine, crystal-clear powder with minimal insoluble residue. Even trace impurities can affect solution stability and patient safety.
A practical tip: ask your supplier for a solubility curve or perform a rapid dissolution test upon receipt of pre-shipment samples. A product that leaves excessive sediment or takes too long to dissolve could indicate caking, coarse particle clumps, or foreign matter.
The versatility of sulphate of potash uses extends well beyond commodity fertilizer. Here’s a snapshot of the most demanding applications:
As the global focus shifts to food quality and sustainability, SOP is gaining ground over MOP in fruit orchards, vineyards, greenhouses, and organic-certified programs. Its negligible chloride content prevents leaf burn and toxicity in sensitive crops like avocadoes, berries, and tea. Moreover, sulfate sulfur contributes to protein synthesis and enzyme activation, making SOP a dual-nutrient premium input.
Potassium sulfate introduces potassium oxide into the glass batch, refining the melt and improving viscosity control. This is critical for producing thin display glass, borosilicate items, and specialty lighting. Even small variations in K2O content can alter expansion coefficients, so glassmakers often specify custom blends and tight tolerances.
In secondary aluminum smelters, a salt flux containing potassium sulfate promotes separation of aluminum from magnesium, calcium, and other impurities. The sulfate radical reacts with sodium and magnesium to form slags that are easily skimmed off, raising the yield of pure aluminum. Consistent flux composition is vital; a shift in raw material quality can disrupt the metal recovery process.
Beyond colonoscopy preps (sodium sulfate potassium oral solution), USP-grade potassium sulfate is used as a bulking agent in tablet manufacturing and as a mineral supplement in certain intravenous solutions. Regulatory oversight demands full traceability and a Drug Master File (DMF) from the supplier.
Potassium sulfate modifies the crystal structure of gypsum during hydration, enhancing core strength and fire resistance. This niche but growing application requires a pure, dry powder free from heavy metal contaminants that could affect board performance or workplace safety.
Each use case imposes distinct quality requirements, so a one-size-fits-all product rarely suffices. Work with a supplier who can tailor specifications to your exact process needs.
A frequent source of confusion for importers is the similarity in names between potassium sulfate and anhydrous potassium aluminum sulfate (also called potash alum or aluminum potassium sulfate). While both are white crystalline salts, their chemistry and applications diverge sharply.
Anhydrous potassium aluminum sulfate (CAS 10043-67-1) is a double salt with aluminum and potassium cations combined with sulfate. It’s primarily used in water treatment as a flocculant, in leather tanning, as a mordant in dyeing, and as a leavening agent in baking powder. The aluminum content makes it unsuitable for fertilizer—aluminum is toxic to plant roots at even moderate concentrations, and its presence would ruin a fertilizer’s value proposition. Mixing up these two products can lead to catastrophic crop failures, product liability claims, and regulatory penalties.
Potassium sulfate (CAS 7778-80-5), on the other hand, contains no aluminum and is the go-to chloride-free potassium source. Before issuing a purchase order, confirm the CAS number, request a chemical analysis, and clarify the intended application with your supplier. A reputable supplier like Hailei Chemical will provide clear documentation and never substitute lower-cost alum for SOP.
Moving beyond technical specs, a structured supplier assessment can save you from costly disruptions. Use these seven questions as a checklist when engaging new potassium sulfate sources:
By methodically addressing these questions, you build a supplier profile that mitigates risks and aligns with your long-term sourcing strategy.
Weifang Hailei Fine Chemical Co., Ltd. places transparency, technical expertise, and consistent quality at the core of every transaction. Our Potassium Sulfate is manufactured under stringent process controls, confirming K2O ≥50%, chloride <0.5%, and full water solubility with minimal insolubles. Whether you need granular SOP for bulk blending, fine powder for pharmaceutical formulation, or customized particle distribution for specialty glass, we have the flexibility to serve your requirements.
Our technical team understands the nuances of international logistics—moisture-proof packaging, container fumigation, and document preparation (COA, MSDS, certificate of origin). We support clients throughout the pre-purchase, sampling, and after-delivery phases, ensuring a seamless import experience. With ISO 9001 certification and REACH registration (when applicable), Hailei Chemical is positioned as a reliable partner for buyers in over 30 countries.
When you choose us, you gain more than a chemical shipment—you gain a partner committed to advancing your business through unmatched product stewardship.
Ready to secure a stable, high-quality potassium sulfate supply? Request a quotation today and let our specialists craft a solution tailored to your exact specifications.