Educational spaces (Schools, universities, academies)
1. Improved academic performance and concentration
- Controlling CO₂ and PM2.5 reduces drowsiness, headaches and loss of focus.
- Prevents the cognitive performance drop scientifically linked to high CO₂.
- Allows adjusting ventilation before comfort and attention degrade.
2. Lower absenteeism and improved health
- Detecting PM2.5, VOCs and improper humidity lowers allergies and colds.
- Records help negotiate improvements with management or municipalities.
- Health traceability to justify better ventilation protocols.
3. Integration with ventilation and energy savings
- API to activate mechanical ventilation only when needed (Demand-Controlled Ventilation).
- Heating/AC optimization with real data.
- Lower costs for large centers and smaller environmental impact.
Productive spaces (Factories, workshops, logistics)
1. Predictive maintenance and process control
- Alerts when particles, humidity or temperature go out of range and may damage machinery.
- VOC control in chemical or painting processes.
- Early detection of conditions that can cause stoppages.
2. Compliance and fewer fines
- Automatic logs for environmental, safety and occupational inspections.
- Rigorous PM2.5/PM10 control in demanding industrial environments.
- Exportable documentation that legally protects the company.
3. Integration with automations and robots
- API to connect production lines, industrial HVAC and extraction systems.
- Automatic activation of ventilation or filtration on pollutant peaks.
- Higher final product quality thanks to stable conditions.
Commercial spaces (Shops, malls, supermarkets)
1. Customer experience and dwell time
- Clean, comfortable air increases visit duration.
- CO₂ control avoids the “stale air” feeling that drives customers away.
- Automatic lighting and temperature adjustment by footfall.
2. Energy optimization and cost reduction
- Ventilation and HVAC only when needed (via API).
- Control of automatic doors, HVAC and extraction systems.
- 10–30% energy reduction depending on sector studies.
3. Trust and brand image
- Displays showing air quality convey safety.
- Environmental transparency becomes a differentiator.
- Supports certifications such as WELL or LEED.
Healthcare spaces (Clinics, hospitals, care homes)
1. Fewer infections and nosocomial transmission
- CO₂ control to verify real air renewal.
- PM2.5/PM10 to detect aerosol or dust risks in ORs and ICUs.
- VOCs for areas using sterilizing chemicals.
2. Continuous monitoring and critical alerts
- Alerts for improper humidity (low favors viruses; high favors mold).
- Integration with hospital HVAC via API.
- History suitable for health audits.
3. Economic benefit and insurance
- Reduces risk of incidents that increase premiums.
- Objective evidence of environmental control for quality assessments.
- Higher bed availability and optimized rotation thanks to fewer infections.
Office spaces (Coworkings, corporates, administration)
1. Productivity and comfort
- CO₂ control reduces the "afternoon fatigue" effect.
- PM2.5 and VOC control reduces headaches, irritation and sick leaves.
- Automatic adjustments to lighting, temperature and ventilation.
2. Smart energy optimization
- API to control HVAC based on actual occupancy.
- Detect underused zones to reduce consumption.
- Monthly reports to justify improvement decisions.
3. Attract and retain talent
- Healthy offices increase job satisfaction.
- Compliance and certifications (WELL, ISO 45001).
- Reduced involuntary remote work due to environmental discomfort.
Residential spaces (Homes, apartments, hotels)
1. Respiratory health and sleep
- Humidity control to avoid mold and asthma.
- PM2.5 detection from cooking, traffic or domestic dust.
- CO₂ sensor to improve sleep quality and wake up fresher.
2. Energy efficiency and automation
- Integration with heating, ventilation, blinds and AC.
- Smart scenes (automatic action when CO₂ > x).
- 10–25% savings in HVAC.
3. Property value
- Higher property value with smart systems.
- Fewer complaints in rental units.
- Useful records for humidity or leakage insurance claims.
Agricultural spaces (Greenhouses, farms, wineries)
1. Optimized plant growth
- Controlled CO₂ to maximize photosynthesis.
- PM2.5 and dust to prevent fungal infections.
- Humidity and temperature in range for specific varieties.
2. Machinery and process care
- Alerts for overheating or conditions that damage motors and fans.
- Gas control in farms (NH₃, CH₄).
- API to activate irrigation, ventilation or agricultural heating.
3. Compliance and traceability
- History for food audits.
- Lower risk of penalties.
- Better negotiation with agricultural insurers.
Public spaces (Stations, airports, libraries, municipal facilities)
1. Flow management and public safety
- Presence and CO₂ sensors to control crowding.
- PM2.5 to alert during urban pollution episodes.
- Automatic ventilation and HVAC adjustments.
2. Transparency and citizen trust
- Public displays of air quality enhance credibility.
- Improved satisfaction and perception of safety.
- Support for local environmental health policies.
3. Energy savings and resource optimization
- Lighting and HVAC controlled by real occupancy.
- Lower municipal costs.
- Benchmark buildings with comparable records to improve management.