Superior corrosion protection of high pressure water and steam cycles during cyclic operation and off load periods using the non-toxic and OEM compliant Anodamine technology. Industry’s expectations for metal passivation and off load protection of high pressure water and steam cycles, plant availability and reliability are continually evolving. The future holds challenging operational and modern plant design configurations, erratic cyclic operation, and stricter environmental and safety regulations; all of which are placing an increasing demand on asset availability, while burdening conventional chemical treatment options. For decades, basic oxidized-treatment or even still reduced-treatment performance and declining expectations have fuelled complacency as the new norm. An unfortunate disconnect exists between a client’s expectations for their plant protection and the for decades existing and unchanged basic chemical treatment options. A client’s inferior operational reliability is often the direct result of poor cycle chemistry and poor off load protection. Conventional cycle chemistry innovation and performance development has stalled. Conventional chemistries have defined limitations for erratic cycling operation. Many modern chemical additions to conventional chemistry have proven to be OEM noncompliant. These treatment limitations result in inadequate metal protection, chemistry-related utility failures, water losses, downtime, forced outages and high-maintenance costs. The non-amine based Anodamine technology offers the world wide only OEM compliant addition to the basic conventional chemistry to provide trustable metal passivation during cyclic operation even at two phase conditions and provides off load protection without auxiliary steam, dehumidified air or nitrogen capping. In this webinar we explain the theory behind the metal protection technology of Anodamine, achievements of applications in the power industry and 1:1 practical comparison with film forming amines.
