Steam systems: What is the most likely consequence of installing an underdesigned (undersized) steam trap in a line or heat exchanger service?
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AIt will waste a large amount of live steam by continuous blowing
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BIt will destroy itself from acceleration wear due to rapid recycling
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CIt will back up condensate and may cause water hammer in the steam line
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DNone of these
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EIt will instantly shut off and protect equipment with no side effects
Answer
Correct Answer: It will back up condensate and may cause water hammer in the steam line
Explanation
Introduction / Context:Steam traps remove condensate and non-condensables while retaining live steam. Correct sizing is essential to maintain heat-transfer performance and line safety. An underdesigned trap cannot pass the required condensate load during start-up and peak conditions, leading to operational risks.
Given Data / Assumptions:
- Trap is undersized relative to peak condensate formation.
- Normal industrial steam pressures and start-up surges.
- Downstream return piping is correctly installed.
Concept / Approach:When a trap cannot discharge enough condensate, liquid accumulates upstream. In heat exchangers, this causes reduced heat-transfer area and temperature control issues; in steam mains, slugs of condensate can be accelerated to high velocities, striking fittings and creating damaging water hammer.
Step-by-Step Solution:
Consider mass balance: condensate formation rate > discharge capacity → accumulation.Accumulation in steam lines produces two-phase flow instabilities and slugging.The most probable outcome is water hammer risk and poor thermal performance.Verification / Alternative check:Manufacturers specify sizing with safety factors for start-up (cold equipment loads). Field experience confirms that undersized traps lead to backed-up condensate and intermittent discharge, not to sustained live-steam waste (which is more typical of failed-open traps).
Why Other Options Are Wrong:
- (a) Live steam waste is associated with oversized or failed-open traps, not undersized ones.
- (b) Rapid cycling/erosion is more linked to differential-pressure variations or dirt, not primarily undersizing.
- (d) and (e) contradict real operating behavior and safety concerns.
Common Pitfalls:Ignoring start-up loads, neglecting backpressure in return lines, and omitting dirt strainers that protect trap internals from plugging (which can mimic undersizing).
Final Answer:It will back up condensate and may cause water hammer in the steam line