Air & Atmospheric Control

MICROCLIMATE FOR COGNITIVE & PHYSIOLOGICAL HEALTH

INDOOR AIR MEASUREMENT · PARTICULATE FILTRATION · POWER CONDITIONING

Indoor air is a measurable biological input. Three variables define its impact: fine particulate load (PM2.5), carbon dioxide (CO₂), and relative humidity (RH).

Elevated indoor CO₂ has been associated with impaired decision-making performance (Satish et al., 2012), while fine particulate exposure is linked to respiratory and systemic health burden (WHO Air Quality Guidelines). Relative humidity further affects airway comfort, mucosal defense, and environmental stability (Arundel et al., 1986).

LOWEN systems combine continuous indoor air measurement, targeted particulate filtration, and humidity stabilization to create a more controlled interior atmosphere. The objective is not cosmetic “fresh air,” but measurable reduction of indoor load and tighter atmospheric control across the spaces where people think, recover, and sleep.

Controlled research has shown that indoor CO₂ in commonly encountered ranges can reduce decision-making performance (Satish et al., 2012), and broader air-quality guidance identifies PM2.5 as a major health-relevant pollutant (WHO Air Quality Guidelines). Reviews of indoor humidity suggest that moderate RH, often around 40–60%, is associated with better health and performance conditions than overly dry or overly humid environments (Wolkoff, 2021).

This is not a therapeutic claim. It is a more controlled indoor air environment, designed in alignment with established environmental and physiological science.