clean steam generator type, pressure rating, and capacity

Distribution piping material (316L stainless steel with orbital welding)

Sloped pipelines and drainability confirmation

Inclusion of pressure relief valves and sample ports

Installation Qualification (IQ)

• Verify installation of pressure gauges, temperature sensors, and safety valves
• Confirm steam generator calibration and system integration
• Weld documentation and passivation records
• Insulation verification and sample valve tagging
• Review of manufacturer documents and utility supply connections

Operational Qualification (OQ)

• Check alarm functions (low feed pressure, high pressure cutoff)
• Conduct empty chamber runs in sterilizers to assess uniformity
• Temperature mapping of distribution headers
• Steam pressure and flow testing under various load conditions
• Condensate drain response test at lowest point

Performance Qualification (PQ) – Steam Quality Tests

Steam must meet the following 3 critical parameters based on EN 285 and USP standards:

1. Non-Condensable Gases (NCG) Test

• Measure gases like air, nitrogen in steam via collection in a submerged container
• Acceptance limit: ≤ 3.5% v/v of total condensate
• High NCG can prevent proper sterilization by insulating microbes

2. Dryness Fraction (Steam Dryness)

• Indicates the moisture content of steam. Value should be ≥ 0.95
• Wet steam can cause ineffective sterilization and corrosion

3. Superheat Test

• Ensures steam is saturated and not superheated beyond sterilization threshold
• Acceptance: Saturated steam ≤ 25°C above boiling point at measured pressure
• Superheated steam may not condense, impairing heat transfer

Additional Quality Tests

Parameter	Test Method	Acceptance Criteria
pH	USP	5.0 – 7.0
Conductivity	USP	WFI limits
Total Organic Carbon (TOC)	USP	≤ 500 ppb
Endotoxins	USP	≤ 0.25 EU/mL
Microbial Count	USP	≤ 10 CFU/100 mL

Sampling Methods

• Use cooled sampling devices with sterile condensate collection tubes
• Collect samples post 5-minute purge to remove condensate
• Ensure sterilized sample ports and aseptic technique
• Samples analyzed within validated hold times (e.g., TOC ≤ 2 hours)

Validation Report Contents

• DQ/IQ/OQ/PQ reports with raw data
• Steam quality test results and acceptance criteria
• Sample locations and rationale
• Deviation reports and CAPA (if any)
• Sterilizer validation linkage if steam used for autoclaves/SIP

Common Deviation Examples

• NCG > 3.5% → Check for vacuum leaks or poor degassing
• Dryness fraction < 0.95 → Revalidate traps or adjust generator controls
• TOC spike in condensate → Possible organic contamination in feed water

Routine Monitoring and Revalidation

• Annual requalification recommended
• Routine monitoring: condensate TOC, conductivity, and microbial tests
• Review alarm logs and event trends monthly

Conclusion

Pure steam and clean steam systems are critical for sterilization and hygienic operations in the pharmaceutical industry. Their validation must confirm consistent steam quality through physical tests like dryness, NCG, superheat, and chemical/microbial analyses. Incorporating robust qualification protocols and regular monitoring ensures sterility assurance and GMP compliance.

Download validation SOPs, steam test templates, and qualification protocols at PharmaSOP.in. For expert guidance on full utility system qualification, visit PharmaValidation.in.

Related Resources

• EU GMP Annex 1
• FDA Process Validation Guidance
• ICH Q9: Quality Risk Management
• EN285 Steam Quality Standard
• WHO TRS 970 – Steam Systems