Defective Trap Seals Enabled SARS Outbreak That Killed 42 People
Key takeaway.
Empty U-traps in a Hong Kong residential complex allowed aerosolized SARS virus to travel between floors through the drainage system, causing 321 infections and 42 deaths. Typical building plumbing airflows of 20-30 L/s are sufficient to carry aerosolized pathogens between building floors when trap seals are compromised.
The study.
This landmark research examined the cross-contamination risk pathways created by defective appliance water trap seals in building drainage systems. The central case study was the 2003 SARS outbreak at the Amoy Gardens residential complex in Hong Kong, where a WHO investigation attributed 321 infections and 42 fatalities to defects in the building's drainage and ventilation system.
The investigation determined that empty U-traps allowed aerosolized SARS virus to enter residential units during air pressurization events within the plumbing system. Typical sanitary plumbing airflows of 20-30 L/s proved sufficient to carry aerosolized pathogens between building floors. Chimney effects and mechanical ventilation served as the primary driving mechanisms for cross-floor pathogen transport.
The research led to the development of the DYTEQTA System, which employs reflected wave theory to detect individual fixture trap seal status. However, while detection identifies failures after they occur, it cannot prevent the cross-contamination window between failure and remediation.
Key findings.
- Pathogens aerosolize within drainage systems Pathogens can become aerosolized within sanitary plumbing and travel on building airstreams, with typical system airflows (20-30 L/s) sufficient to transport them between floors.
- Empty traps create direct pathogen pathways Depleted U-traps provide direct routes for aerosolized pathogens to enter occupied spaces during pressure transient events, with cross-contamination risk proportional to the number of defective traps.
- 321 infections from a single drainage failure The 2003 Hong Kong outbreak was directly linked to drainage system defects, establishing the epidemiological significance of trap seal integrity as a public health concern.
- Pressure transients drive pathogen escape Building air pressure transients, driven by chimney effects and mechanical ventilation, create conditions that push pathogens through depleted traps and into occupied spaces.
What this means for your facility.
Gormley's research documents the cross-contamination pathway created by defective trap seals. Green Drain is a waterless seal that holds without retained water. The 2003 SARS outbreak demonstrated that a single drainage system failure can create building-wide contamination affecting all occupants. Every depleted water trap in a building represents an open pathway between the sewer system and occupied spaces.
Green Drain's waterless silicone one-way valve holds its seal without retained water, so it is not subject to the evaporative depletion failure mode documented here. Unlike water-filled trap seals that depend on regular usage to maintain their seal, Green Drain's one-way valve restricts the upward movement of air and aerosols from the drainage system regardless of usage patterns. Testing to the ASSE 1072-2020 standard evaluates seal integrity under pressure transients up to 200 Pa, the same range of pressure conditions Gormley documented within building drainage systems.
While the DYTEQTA detection system identifies failed traps, it only finds problems after they exist. Green Drain restricts the upward movement of air and aerosols without relying on retained water. For facilities serving healthcare, food service, or other high-risk occupancies, a supportive engineering control that maintains seal integrity without depending on retained water complements, rather than replaces, detection-dependent approaches and infection-prevention programs.
Full citation.
Related research.
Protect your facility's drains.
Green Drain's waterless trap seal is a supportive engineering control that restricts the upward movement of air and aerosols, backed by independent bench testing. See how it works for your industry.