If dissolved oxygen increases and the pH and alkalinity do not increase, the corrosion rate will generally:

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Prepare for the ADEQ Water Treatment 2 Exam with our comprehensive study tools including flashcards and multiple-choice questions. Each question is equipped with helpful hints and detailed explanations to ensure you're ready to excel on your exam day!

Multiple Choice

If dissolved oxygen increases and the pH and alkalinity do not increase, the corrosion rate will generally:

Raising dissolved oxygen increases the amount of oxidant available to attack metal surfaces. In electrochemical corrosion, the metal dissolves as electrons are released while oxygen is reduced at the cathodic sites. More oxygen speeds up this cathodic reaction, pulling the overall corrosion process faster. If pH and alkalinity stay the same, there isn’t additional buffering or protective film formation to offset this, so the net effect is a higher corrosion rate.

If dissolved oxygen increases and the pH and alkalinity do not increase, the corrosion rate will generally:

Prepare for the ADEQ Water Treatment 2 Exam with our comprehensive study tools including flashcards and multiple-choice questions. Each question is equipped with helpful hints and detailed explanations to ensure you're ready to excel on your exam day!

If dissolved oxygen increases and the pH and alkalinity do not increase, the corrosion rate will generally:

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