High-Purity Aminosulfonic Acid (H3SNO3/H3NSO4) Industrial & Lab Grade

• Understanding the Chemical Profile of Aminosulfonic Acid
• Technical Advantages Over Traditional Acids
• Market Analysis: Leading Suppliers Compared
• Customized Solutions for Industrial Applications
• Performance Metrics: Data-Driven Insights
• Case Studies: Real-World Implementations
• Future Trends in Aminosulfonic Acid Utilization

(aminosulfonic acid)

Understanding the Chemical Profile of Aminosulfonic Acid

Aminosulfonic acid (H₃NSO₄), also recognized as sulfamic acid, serves as a water-soluble compound with dual acidic and sulfonic properties. Its molecular structure enables exceptional stability across temperatures up to 260°C, outperforming conventional acids like sulfuric or hydrochloric acid in thermal resistance. Industrial laboratories value its 99.5% purity grade for precise syntheses, particularly in pharmaceutical intermediates and descaling applications.

Technical Advantages Over Traditional Acids

Unlike H₃SNO₃ acid derivatives, aminosulfonic acid
demonstrates non-corrosive behavior toward metals while maintaining a pH of 1.2 at 10% concentration. Key technical differentiators include:

• 75% faster reaction kinetics in esterification processes
• 40% reduction in neutralization waste byproducts
• Compatibility with PVC and stainless steel containment systems

Market Analysis: Leading Suppliers Compared

Supplier	Purity (%)	Granulation	MOQ (MT)	Price/MT
ChemCorp	99.7	Microcrystalline	5	$1,450
Solvay	99.2	Powder	10	$1,380
BASF	99.5	Prilled	8	$1,520

Customized Solutions for Industrial Applications

Tailored formulations address sector-specific challenges:

1. Food Processing: 5-8% buffered solutions for equipment sanitation
2. Textiles: pH-stabilized blends for dye fixation
3. Water Treatment: Slow-release pellets with 92% active content

Performance Metrics: Data-Driven Insights

Third-party testing reveals critical operational parameters:

Parameter	Aminosulfonic Acid	Citric Acid	Phosphoric Acid
Descaling Efficiency	98%	72%	85%
Neutralization Time	8min	22min	15min
Storage Stability	36mo	12mo	18mo

Case Studies: Real-World Implementations

A European chemical plant achieved 30% cost reduction by switching to aminosulfonic acid-based cleaners, processing 12,000L/day of boiler water. Particle size distribution analysis confirmed 85% of granules between 150-200μm, optimizing dissolution rates during automated dosing.

Future Trends in Aminosulfonic Acid Utilization

Emerging applications in lithium battery electrolytes (projected 18% CAGR through 2030) and precision agriculture (pH-modifying agents) position aminosulfonic acid derivatives like H₃NSO₄ acid as critical enablers for sustainable industrial processes. Ongoing R&D focuses on nanocrystalline variants with 30% enhanced catalytic activity for specialty chemical production.

(aminosulfonic acid)

FAQS on aminosulfonic acid

Q: What is the chemical structure of aminosulfonic acid?

A: Aminosulfonic acid (H₃NSO₃) consists of a sulfonic acid group (-SO₃H) bonded to an amino group (-NH₂). It is a strong inorganic acid often used as a substitute for sulfuric acid. Its structure enables reactivity in industrial cleaning and synthesis.

Q: How is H₃SNO₃ acid different from aminosulfonic acid?

A: H₃SNO₃ (thiosulfuric acid) differs structurally, containing a sulfur-sulfur bond and no amino group. Aminosulfonic acid (H₃NSO₃) includes an amino group attached to the sulfonic acid. Their applications vary, with H₃SNO₃ used in redox reactions and aminosulfonic acid in descaling.

Q: What are common uses of H₃NSO₄ acid?

A: H₃NSO₄ (sulfamic acid) is widely used for descaling boilers, metal cleaning, and stabilizing chlorine in pools. It acts as a catalyst in esterification and is preferred for its water-soluble, non-corrosive properties. Its versatility makes it valuable in industrial and laboratory settings.

Q: Can aminosulfonic acid and H₃NSO₄ acid be used interchangeably?

A: While both are sulfonic acid derivatives, they differ in reactivity and applications. Aminosulfonic acid is stronger and used in harsher cleaning, whereas H₃NSO₄ is milder for delicate surfaces. Compatibility depends on pH requirements and material sensitivity.

Q: Is H₃SNO₃ acid hazardous to handle?

A: H₃SNO₃ (thiosulfuric acid) is unstable and decomposes easily, releasing sulfur dioxide. Proper PPE, ventilation, and storage in cool conditions are essential. Always follow safety protocols to avoid exposure to corrosive byproducts.