Mob.:
+86 156 3115 5652
Mob.:
+86 156 3115 5652
E-mail:
thinkdo_calvin@126.com/thinkdochem@126.com
Mob.:
+86 156 3115 5652
Mob.:
+86 156 3115 5652
E-mail:
thinkdo_calvin@126.com/thinkdochem@126.com
Application
In the industrial cleaning field, traditional cleaning processes often rely on strong acid cleaners (such as hydrochloric acid, sulfuric acid, and nitric acid) and non-degradable chelating agents (such as EDTA and DTPA). While these agents can remove scale and rust effectively, they bring significant challenges including severe equipment corrosion, difficult wastewater treatment, high environmental risks, and low operational safety. These issues conflict with the current trend of green, low-carbon, and environmentally compliant industrial practices.
Iminodisuccinic Acid Tetrasodium Salt (IDS-Na₄), as a novel eco-friendly chelating cleaner, leverages its phosphorus-free, fully biodegradable, strong chelating, excellent corrosion-inhibiting, and safe handling characteristics, making it an ideal alternative to traditional strong acids and non-degradable chelating agents. Its chelation-based mechanism allows for high-efficiency scale and rust removal under mild conditions, balancing cleaning performance, equipment protection, and environmental compliance, and it has been widely applied in various industrial equipment cleaning scenarios, driving the industrial cleaning industry toward green, efficient, and safe solutions.
As an eco-friendly chelating cleaner, IDS-Na₄ overcomes the inherent drawbacks of traditional cleaning agents. Its unique molecular structure and physicochemical properties deliver threefold value: high-efficiency cleaning + environmental safety + equipment protection, which is the core reason it can successfully replace strong acids and non-degradable chelating agents.
Compared with traditional strong acids, IDS-Na₄ operates in neutral to mildly alkaline conditions (pH 7–11) rather than strong acid environments. This avoids corrosion of metallic equipment surfaces and degradation of seals while eliminating acid mist pollution and operational hazards, significantly improving safety and prolonging equipment lifespan. Compared with non-degradable chelating agents like EDTA and DTPA, IDS-Na₄ offers superior biodegradability, with a 28-day biodegradation rate exceeding 70%, ultimately breaking down into harmless substances such as water, carbon dioxide, and ammonia. It leaves no residues, does not accumulate, and does not cause eutrophication or soil contamination. Wastewater can meet discharge standards without complex treatment, significantly reducing environmental compliance costs and fulfilling national requirements for phosphorus-free, biodegradable industrial cleaners.
The chelation mechanism of IDS-Na₄ differs from traditional cleaning agents that rely on strong corrosion or oxidation. Its molecular structure contains abundant carboxyl and amino groups, which form stable water-soluble chelates with metal ions such as calcium, magnesium, iron, copper, and zinc. This enables the efficient removal of scale (calcium carbonate, calcium sulfate, calcium phosphate), rust (iron oxides, ferric hydroxide), and other metal oxides from equipment surfaces. The process produces no precipitates and no secondary contamination, and the cleaned liquid is easy to rinse without residue, reducing subsequent treatment costs.
Moreover, IDS-Na₄ exhibits excellent corrosion-inhibiting properties. It forms a dense protective adsorption layer on metal surfaces, isolating the chelating system from the metal substrate and effectively preventing corrosion. This is particularly suitable for carbon steel, stainless steel, copper alloys, aluminum alloys, and other commonly used industrial metals, solving the industry challenge of “scale removal inevitably causes corrosion.”
Thanks to its environmental safety, high efficiency, and operational safety, IDS-Na₄ has been widely applied to various industrial equipment cleaning scenarios, fully replacing traditional strong acids and non-degradable chelating agents. Key applications include:
Heat exchangers, condensers, and coolers in steel, chemical, power, metallurgical, and pharmaceutical industries often accumulate significant scale and rust over time, reducing heat transfer efficiency, increasing energy consumption, and potentially causing blockages or corrosion leaks. Traditional cleaning uses hydrochloric or sulfuric acids, which corrode tubes and damage seals, while EDTA or other non-degradable chelates reduce corrosion but create difficult-to-treat wastewater. IDS-Na₄ chelates and dissolves scale and rust under neutral to mild alkaline conditions, protecting tubes and seals, allowing wastewater to be discharged or simply treated, improving cleaning efficiency, and reducing maintenance and environmental risks. Its dispersion properties prevent redeposition of removed particles, ensuring long-lasting cleanliness and extended equipment life.
Industrial boilers (low- and medium-pressure, hot water boilers) accumulate scale and rust that decrease heat transfer efficiency, increase fuel consumption, and may cause surface corrosion, blistering, or perforation. Traditional acid cleaning poses high corrosion risk, and residual acid can cause secondary corrosion. IDS-Na₄ removes calcium carbonate, calcium sulfate, and iron oxides without a strong acid environment while inhibiting corrosion and protecting boiler surfaces. Phosphorus-free, biodegradable waste is easy to discharge, meeting environmental compliance, reducing sludge, improving steam quality, and extending boiler lifespan.
Pipelines and vessels in oil, water, chemical, and pharmaceutical industries accumulate scale, rust, oil, and metal residues, causing blockages, corrosion, and material contamination. Traditional cleaning with strong acids or non-degradable chelates either risks corrosion or creates environmental hazards. IDS-Na₄ can be tailored in concentration for circulation or soaking cleaning, efficiently removing deposits and metal ions under mild conditions, leaving no residue and ensuring compliance, especially in food and pharmaceutical industries.
Metalworking machines, grinding equipment, and metal workpieces accumulate chips, metal dust, cutting fluid residues, and rust. Traditional strong acids or phosphate-based chelates corrode workpieces and produce wastewater pollution. IDS-Na₄ chelates metal residues and rust while providing corrosion protection, preserving surface finish, and allowing subsequent processing without affecting precision. Biodegradable, phosphorus-free waste meets discharge standards and reduces cleaning costs while extending cleaning solution life.
IDS-Na₄ is also effective in electroplating equipment cleaning (removing metal residues and coating debris), electronic equipment cleaning (high-purity removal of trace metals), and natural gas pipeline cleaning (removing iron sulfide scale and rust to prevent blockages). In all these applications, it fully replaces strong acids and non-degradable chelating agents, providing high-efficiency cleaning while ensuring equipment protection and environmental compliance.
Iminodisuccinic Acid Tetrasodium Salt (IDS-Na₄), as an eco-friendly chelating cleaner, solves the problems of traditional strong acids—equipment corrosion, environmental pollution, and operational hazards—as well as the challenges of non-degradable chelating agents, including difficult wastewater treatment and high environmental pressure. Its mild yet efficient cleaning mechanism is compatible with various industrial equipment cleaning scenarios, improving cleaning efficiency, protecting industrial assets, and reducing maintenance and environmental costs. By adhering to national green, low-carbon, and environmentally compliant industrial development trends, IDS-Na₄ promotes the transformation of the industrial cleaning industry from “high-pollution, high-corrosion, low-efficiency” to “green, efficient, and safe.”
As a practical and environmentally friendly new chelating cleaner, IDS-Na₄’s value derives from its inherent physicochemical properties, ensuring replicable applications with broad future potential, meeting the objective and professional standards of industrial cleaning products.
