Engineering solutions alone cannot prevent or eliminate viruses in indoor environments. The objective of pandemic resistant design is to reduce physical transmission from surface to hands to eyes/nose/mouth; lessen airborne virus loads, and improve monitoring and detection.

In outdoor environments, the wind and sun disperse viruses and sterilizes surfaces naturally. However, in an indoor environment, these natural methods are not available, and we need to consider other methods to reduce the spread of viruses. Mechanisms of virus and infectious disease transmission include contact (direct and indirect); transmission by large droplets; and inhalation of airborne particles. According to the ASHRAE HVAC Design Manual for Hospitals and Clinics, around 80 to 90% of hospital-acquired infections are transmitted by indirect contact (surfaces to hands to eyes/nose/mouth) and 10 to 20% from the airborne transmission. Engineering principles developed for hospitals can be applied to commercial buildings; not to the same extent, but still an improvement on the current practices.

How can MEP design engineers adapt existing proven principles to reduce the spread of infectious diseases in indoor environments and help to make buildings safer?

Mechanical Ventilation and Air Conditioning Systems (MVAC)

ASHRAE has just released the Standard 170 Ventilation for Healthcare Facilities (2021). There is still a lot we don’t know about transmission mechanisms, but adapting what we do know is a sound approach, whilst further research takes place.

Methods to reduce transmission by airborne particles may include the following:

• Extraction and Dilution of contaminants through increased ventilation (outdoor air);
• Filtration, to remove virus cells that attached to dust particles;
• Disinfection, such as UVGI (ultraviolet germicidal irradiation) to kill virus cells;

Targeted extract ventilation directly removes air-borne particles whilst dilution with increased outside air supply dilutes those virus cells remaining. Energy-saving CO2 demand control ventilation systems which aim to optimize outdoor air supply according to actual space occupancy and save energy need to be disabled during occupied periods.

Individual virus cells are too small to be captured by filters directly, however cells attach to dust particles they can be captured with MERV-14 filters. In addition, the cleaner air means less dust settles on surfaces (surface dust can be an environment for bacteria and viruses). Captured cells can be disinfected with a UVGI system, which also kills mould and bacteria that may otherwise accumulate inside an AHU.

UVGI is only effective as a line-of-sight disinfectant and has limited range, and direct exposure to UV light is dangerous. So UVGI is best applied in AHU’s, not through direct exposure into rooms in commercial buildings via UV robots and similar devices.