Anodamine is a green, OEM-compliant, surface-active chemistry that selectively targets all virgin metallurgies for formation of a hydrophobic protective barrier film. This 100% water-soluble chemistry partitions itself in both single and two-phase locations, thus providing metal protection throughout the entire steam water cycle.
Anodamine satisfies these main areas of cycle chemistry
Anodamine is a non-toxic, environmentally-friendly chemistry with no handling risks. The result is a safer work environment and peace of mind for everyone, without compromise to performance.
These are the unique performance and value-added benefits one can expect
Our chemistry ensures full compliance with OEM steam quality guidelines with cation conductivities of <0.2 µS/cm. An increase of 0.05 µS/cm per 1 ppm dosed is typically experienced, coming from Anodamine itself.
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Unlike most conventional treatment chemicals and even other film-forming amines, Anodamine products offer exceptionally low toxicity and handling hazards (LD50 values range 49,500 - 116,000 mg/kg).
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Depending on pressure, Anodamine's volatile to liquid ratio is between 50/50 to 60/40. In result, protection reaches all single and two-phase locations.
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Tested up to 566°C/1051°F on super critical once-through units operational on OT, no degradation products have been measured.
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Anodamine allows for complete elimination of reducing agents, thus allowing optimum ferrous and admiralty metal protection independent of oxygen and ammonia dosage.
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The volatile to liquid ratio of Anodamine results in a protection of single and two-phase areas, thus mitigating Flow-Assisted Corrosion.
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There is no cycle poisoning, no degradation products, and no release of filming layer as seen with conventional film-forming amines.
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Anodamine has been shown to assist in preventing pitting, thus preventing the propagation of SCC on turbine steels.
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Online instrumentation and equipment is unaffected by Anodamine dosage.
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No typical amine-supported oxide dissolution and/or transport occurs.
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Anodamine does not increase circuit pH's or appreciably affect system standard conductivities.
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Analysis of chemical residual is achieved with a simple spectrophotometric method, without the use of Bengal Rose dye.
Read MoreAnodamine offers complete metal protection to all water or steam-touched surfaces in both single and two-phase areas, leaving one with the peace of mind that their capital assets are well-protected and reliable in all locations. Protection is applicable to any all-ferrous or mixed metallurgies systems without compromise.
A brief comparison between conventional regimes, conventional film-forming amines, and Anodamine
| Conventional
Regimes |
Conventional
Film-Forming Amines |
|
|
|---|---|---|---|
|
Toxicity
|
Often hazardous and toxic | Slightly hazardous | Non-toxic, non-hazardous |
|
Surface Protection
|
Limited/problematic | Only with clean metal | Virgin metal protection |
|
Stabilization of Oxides
|
Partial | Partial | Yes |
|
Under-Deposit Corrosion
|
Problematic | Worsens | Eliminates |
|
Effects on Online Instrumentation
|
No | Yes | No |
|
Increase Cation Conductivity
|
No | Significant increase | Only with initial cycle clearance (temporary) |
|
OEM Compliance Steam Quality
|
Yes | No | Yes |
|
Thermally Stable
|
Yes | No (organic acid degradation products) | Yes |
|
All-Ferrous Protection
|
Partial | Partial | Yes |
|
Mixed Metallurgy Protection
|
Partial | Partial | Yes |
|
Single-Phase Protection (FAC)
|
Yes | Yes | Yes |
|
Two-Phase Protection (FAC)
|
No | No | Yes |