Sodium tripolyphosphate
219
June 9, 2025, 1:36 PM
1.Chemical and Physical Properties
1.1 Chemical Identity
- Common Name: Sodium Tripolyphosphate (STPP), Sodium Triphosphate (STP)
- Chemical Name (IUPAC): Pentasodium triphosphate; Trisodium bis(phosphonatooxy)phosphinate (less common)
- CAS Registry Number: 7758-29-4
- Chemical Class: Inorganic salt, condensed phosphate (polyphosphate)
- Molecular Formula: Na₅P₃O₁₀
- Molecular Weight: 367.86 g/mol
1.2 Key Physical Properties
- Appearance:
- White powder or granules. Exists in two anhydrous crystalline forms (Phase I - high temperature form, and Phase II - low temperature form) which differ in hydration rate and performance. Also available as a hexahydrate (Na₅P₃O₁₀·6H₂O).
-
- Odour: Odourless.
- Melting Point:
- Approximately 622°C (decomposes to pyrophosphate and metaphosphate at higher temperatures or upon prolonged heating). The hexahydrate loses water upon heating.
-
- Density:
- Anhydrous: Approximately 2.52 g/cm³
- Bulk density (powder/granules): Varies (e.g., 0.5 - 1.1 g/cm³ depending on grade and form).
-
- Solubility:
- Readily soluble in water (e.g., ~13-15 g/100 mL at 20-25°C). Insoluble in ethanol and most organic solvents.
-
1.3 Key Chemical Properties
- pH of Solution:
- Aqueous solutions are alkaline (pH typically 9.1 - 10.1 for a 1% solution).
-
- Hydrolysis:
- In aqueous solution, STPP gradually hydrolyzes to orthophosphate (PO₄³⁻) and pyrophosphate (P₂O₇⁴⁻). Hydrolysis is accelerated by increased temperature, lower pH (acidic conditions), and presence of enzymes.
- Na₅P₃O₁₀ + H₂O → Na₃HP₂O₇ + Na₂HPO₄ (initial step)
-
- Chelating/Sequestering Ability:
- Excellent chelating agent, particularly for divalent and trivalent metal ions such as Ca²⁺, Mg²⁺, Fe²⁺, Fe³⁺, and Al³⁺. This property is crucial for its applications, e.g., water softening in detergents.
-
- Hygroscopicity:
- Anhydrous STPP is hygroscopic, especially Phase I. It can absorb moisture from the air to form the hexahydrate.
-
2.Production Technologies
2.1 Synthesis Overview
- Primary Method:
- STPP is commercially produced by the reaction of sodium carbonate (soda ash) or sodium hydroxide with phosphoric acid to form a mixture of monosodium phosphate (MSP) and disodium phosphate (DSP). This mixture is then heated (calcined) under controlled conditions.
- Step 1 (Neutralization):
- H₃PO₄ + NaOH → NaH₂PO₄ (MSP) + H₂O
- H₃PO₄ + 2NaOH → Na₂HPO₄ (DSP) + 2H₂O
- (Or using Na₂CO₃: 2H₃PO₄ + Na₂CO₃ → 2NaH₂PO₄ + H₂O + CO₂; H₃PO₄ + Na₂CO₃ → Na₂HPO₄ + H₂O + CO₂)
-
- Step 2 (Condensation/Calcination): A precise molar ratio of MSP to DSP (typically 1:2) is dried and then heated to 300-550°C.
- NaH₂PO₄ + 2Na₂HPO₄ → Na₅P₃O₁₀ + 2H₂O
-
-
- Control of Phases:
- The temperature profile during calcination determines the ratio of Phase I to Phase II STPP. Phase I is formed at higher temperatures and hydrates more rapidly, which can be advantageous in some detergent formulations for quick dissolution.
-
2.2 Industrial Production Process
- Mixing:
- Phosphoric acid is reacted with sodium carbonate or sodium hydroxide in agitated tanks to achieve the desired Na/P ratio.
-
- Drying & Calcination:
- The resulting orthophosphate slurry or solution is dried (e.g., in a spray dryer or rotary dryer) and then calcined in a rotary kiln or similar high-temperature equipment. Precise temperature control is critical.
-
- Milling and Sieving:
- The calcined product is cooled, milled to the desired particle size (powder or granules), and sieved.
-
- Quality Control:
- Parameters monitored include P₂O₅ content, Na₂O content, pH, particle size distribution, bulk density, phase composition, and purity (e.g., levels of orthophosphates, pyrophosphates, insoluble matter, heavy metals for food grade)
-
2.3 Grades of STPP
- Technical/Detergent Grade:
- The most common grade, used primarily in detergents and industrial applications. Specifications focus on chelating power, pH, density, and particle size.
-
- Food Grade (E451i):
- Higher purity, meeting stringent requirements for levels of heavy metals (e.g., arsenic, lead), fluoride, and insoluble matter as defined by food regulatory bodies (e.g., FDA, EFSA).
-
- Specific Industrial Grades:
- Tailored for particular applications, e.g., ceramic grade with specific deflocculation properties.
-
3.Applications
3.1 Detergents and Cleaning Products (Historically Largest Use)
- Builder: STPP acts as a "builder" by:
- Sequestering hardness ions (Ca²⁺, Mg²⁺), preventing them from interfering with surfactants and forming scum. This "softens" the water.
- Providing alkalinity and buffering the wash solution at an optimal pH for cleaning.
- Emulsifying and dispersing soil particles, preventing their redeposition on fabrics.
- Improving the efficiency of surfactants.
-
- Usage Trend:
- Its use in household laundry detergents has significantly declined in many countries (North America, Europe, Japan) due to environmental concerns about phosphate-induced eutrophication of water bodies. However, it is still used in some regions and in industrial & institutional cleaners.
-
3.2 Food Additive (E451i)
- Meat and Poultry Processing:
- Improves water retention, reduces cooking loss, enhances tenderness and texture, and helps emulsify fats.
-
- Seafood Processing:
- Helps retain moisture, minimize drip loss during thawing, and preserve texture in frozen fish and shellfish.
-
- Dairy Products:
- Used in processed cheese as an emulsifier and to improve melting properties.
-
- Other Foods:
- As a sequestrant, pH buffer, texturizer, or stabilizer in various processed foods like beverages, soups, and pet food.
-
3.3 Industrial Applications
- Meat and Poultry Processing:
- Improves water retention, reduces cooking loss, enhances tenderness and texture, and helps emulsify fats.
-
- Seafood Processing:
- Helps retain moisture, minimize drip loss during thawing, and preserve texture in frozen fish and shellfish.
-
- Dairy Products:
- Used in processed cheese as an emulsifier and to improve melting properties.
-
- Other Foods:
- As a sequestrant, pH buffer, texturizer, or stabilizer in various processed foods like beverages, soups, and pet food.
-
3.4 Other Niche Applications
- Toothpaste:
- Acts as a mild abrasive, dispersing agent, and tartar control agent (by sequestering calcium).
-
- Petroleum Industry:
- Used as a deflocculant in drilling muds.
-
- Leather Tanning:
- As a masking agent.
-
- Chemical Synthesis:
- As a source of phosphate or a reactant in certain chemical processes
-
4.Market Analysis
4.1 Global Market Overview
- Market Size & Trend:
- STPP is a large-volume industrial chemical. While its use in detergents has declined in developed countries, the global market is still significant, supported by industrial applications, food additive use, and detergent use in regions with less stringent regulations.
-
- Shift in Consumption:
- A notable shift from detergent applications to industrial and food applications in regulated regions. Asia, particularly China, is a major producer and consumer.
-
4.2 Key Market Dynamics
- Drivers:
- Cost-effectiveness and high efficacy as a chelating agent and builder.
- Growing demand in food processing and water treatment sectors.
- Continued use in detergents in developing countries and industrial/institutional cleaners globally.
- Versatility in various industrial applications (ceramics, textiles, etc.).
-
- Restraints:
- Environmental regulations limiting or banning its use in household detergents due to eutrophication concerns.
- Availability of alternative builders for detergents (e.g., zeolites, citrates, polycarboxylates, sodium carbonate/silicate systems).
- Fluctuations in raw material prices (phosphoric acid, soda ash).
-
4.3 Regional Aspects
- Production:
- Concentrated in regions with access to phosphate rock and established chemical industries, notably China. Other producing countries include those in Europe, North America, and other parts of Asia.
-
- Consumption:
- Asia: Remains a significant consumer across detergents, food, and industrial sectors.
- North America & Europe: Consumption in detergents is greatly reduced, but demand persists in food and industrial applications.
- Other Regions (Latin America, Africa, Middle East): Varying levels of detergent use depending on local regulations and economic factors, along with industrial and food use.
-
5.Upstream and Downstream Linkages
5.1 Upstream Linkages (inputs for production)
- Primary Raw Materials:
- Phosphoric Acid: The key phosphorus source, derived from phosphate rock.
- Sodium Carbonate (Soda Ash) or Sodium Hydroxide (Caustic Soda): The sodium source.
-
- Energy:
- Significant energy is required for the calcination process.
-
- Technology:
- Relies on chemical engineering principles for reaction control, drying, and material handling.
-
5.2 Downstream Linkages(outputs and consumers)
- Detergent Industry:
- Manufacturers of laundry detergents (household and industrial/institutional), automatic dishwashing detergents, and other cleaning products.
-
- Food Processing Industry:
- Manufacturers of processed meats, seafood, dairy products, beverages, and other prepared foods.
-
- Water Treatment Chemical Suppliers:
- Companies providing chemicals for boiler water treatment, cooling water treatment, and municipal water treatment.
-
- Industrial Users:
- Ceramic manufacturers, textile mills, paint and coating producers, paper mills, mining operations.
-
- Distribution:
- Involves bulk transport (bags, super sacks) for industrial grades and specialized packaging for food-grade products.
-
More Sourcing News
69493
July 4, 2025
65379
July 10, 2025
63537
July 10, 2025
57032
July 4, 2025
53634
July 10, 2025