Have you ever experienced symptoms such as fatigue, drowsiness, and difficulty maintaining focus while indoors? If so, it could indicate exposure to elevated levels of CO₂ . Carbon dioxide in our surroundings plays a crucial role in regulating blood pH levels.
Increased CO₂ concentration leads to a reduction in blood pH, a condition known as blood acidification. This can manifest in symptoms such as fatigue, drowsiness, difficulty concentrating, and in some cases, headaches. The severity of these effects varies depending on the level of CO₂ present in the environment.
Consider this scenario: You are in a room where multiple people are exhaling up to 300 milliliters of CO₂ per minute without proper ventilation. Within an hour, this could lead to a significant headache.
I once witnessed someone experience this firsthand at a meeting where they had to deliver a speech. Shortly after entering the venue, they and those around them began experiencing headaches that worsen over time. Despite completing the speech, the individual continued to suffer from headaches for another two hours, even after taking medication.
This underscores the importance of having CO₂ sensors in our indoor spaces to monitor and regulate CO₂ levels. Maintaining optimal CO₂ levels can significantly improve concentration and productivity.
In the current landscape of remote work culture, even brief periods of high concentration lasting 2-3 hours can translate into substantial financial losses due to missed opportunities and diminished productivity
What level of CO₂ Concentration is terrible for us?
Carbon dioxide (CO₂) levels in the air are measured in parts per million (ppm). Up to 800 ppm of CO₂ is generally regarded as safe.
Between 1,000 ppm and 1,500 ppm, elevated CO₂ levels can induce symptoms such as fatigue, sleepiness, and reduced concentration. Beyond 1,500 ppm, individuals may experience headaches, with severity increasing as CO₂ concentrations rise.
To provide context, the average CO₂ concentration in the Earth’s atmosphere is around 421 ppm.
Mutelcor Smart CO₂ LoRa Sensor
The Mutelcor Smart CO₂ LoRa Sensor Smart CO₂ LoRa Sensor incorporates sensors for carbon dioxide, temperature, and humidity, all of which deliver data through a dedicated web dashboard.
It measures CO₂ levels automatically every 2 seconds and allows users to customize the interval for sending updates to the dashboard.
You could also call this device a LoRa Carbon Dioxide Sensor or CO₂ Gas Sensor.
Now, let’s delve into the functionality of the CO₂ sensor. When the CO₂ level is below 800 ppm, a green light illuminates.
At 800 ppm, a yellow light remains on until the level drops below 750 ppm. If the CO₂ level reaches 1000 ppm, a red light indicates this until the level falls below 950 ppm, at which point it turns yellow.
When the CO₂ level exceeds 1500 ppm, the red light activates along with three beeps lasting 5 seconds. Additionally, as long as the CO₂ level remains above 1450 ppm, the sensor emits two buzzer sounds for 5 seconds every 10 minutes.
All data is recorded on the CO₂ sensor dashboard, accessible for review with various filter options.
In residential and office settings, CO₂ sensors are configured with safety margins that can be adjusted to suit specific requirements.
For instance, environments like mushroom farming necessitate CO₂ levels as high as 16,000 ppm. In such cases, the sensor can be configured to display a green light within this range. If the CO₂ level drops below this threshold, a red light indicates the deviation, while a yellow light may signify elevated levels beyond the optimal range.
This customization ensures the sensor effectively meets diverse operational needs while maintaining safety and efficiency in various applications.
What is this CO₂ Sensor
CO₂ sensors are employed across various sectors for their versatile applications. Let’s explore several key areas where these sensors are utilized.
CO₂ sensors in HVAC
HVAC, which stands for Heating, Ventilation, and Air Conditioning, is essential in homes for regulating temperature and ensuring proper ventilation.
CO₂ sensors play a critical role in determining optimal ventilation timing, while temperature and humidity sensors assist in managing cooling cycles effectively.
CO₂ sensor for Smart Homes
Smart homes integrate all electronic devices with internet connectivity, enabling remote management. This technology allows homeowners to control lighting, air conditioning, and fans from anywhere, without physical presence.
Within smart homes, CO₂ sensors can alert users via mobile devices or a central dashboard about ventilation, enhancing indoor air quality management.
CO₂ sensor for Automated Buildings
Automated buildings represent advanced iterations of smart homes and HVAC-equipped residences, integrating diverse sensors to optimize building maintenance.
For instance, CO₂ sensors are strategically placed to regulate ventilation, while temperature and humidity sensors are utilized to ensure consistent indoor climate control across the entire building.
CO₂ Sensor for Schools
During winter, classroom environments typically keep doors and windows closed to maintain warmth. To ensure optimal air quality without disrupting students’ focus and well-being, CO₂ sensors are employed to facilitate periodic ventilation. Additionally, CO₂ sensors are integral to the operation of air-conditioned classrooms, supporting efficient management of indoor air quality throughout the school day.
CO₂ Sensor for Universities
CO₂ sensors in universities play a crucial role in maintaining air quality across classrooms, laboratories, and common areas, promoting a conducive environment for student productivity and concentration. These sensors also contribute to the optimization of HVAC systems throughout the university campus.
CO₂ Sensor for Senior Residences
CO₂ sensors are instrumental in maintaining a healthy environment in senior residences, while also optimizing energy use for ventilation systems serving elderly residents.
CO₂ Sensor for Apartments
The shift towards remote work and increased apartment living underscores the importance of maintaining a healthy lifestyle, where CO₂ sensors play a crucial role in ensuring environmental health.
CO₂ Sensor for Shopping Malls
In shopping malls, HVAC systems are essential for regulating temperature and creating a comfortable shopping experience. CO₂ sensors are strategically positioned throughout malls to detect elevated CO₂ levels, triggering ventilation cycles as needed to uphold indoor air quality and enhance visitor comfort.
CO₂ Sensor for Hospitals & ICU
In hospitals, critical areas such as ICUs, operating theaters, and emergency rooms require utmost focus from healthcare professionals to ensure patient safety and optimal care.
Maintaining a healthy environment is crucial throughout the facility, and CO₂ sensors play a vital role in ensuring good air quality for patients and medical staff.
CO₂ Sensor for Offices & Coworking Spaces
In office environments, maintaining high levels of concentration directly impacts business productivity and revenue. CO₂ sensors provide timely insights into air quality, enabling teams to optimize conditions and sustain focus, thereby enhancing overall productivity
Conclusion
Carbon dioxide plays a critical role in maintaining our blood pH levels. However, elevated CO₂ concentrations can lead to blood acidification, resulting in symptoms such as fatigue, sleepiness, and difficulty concentrating, potentially escalating to severe headaches based on the CO₂ levels present.
Prolonged exposure to high CO₂ levels may also adversely affect life expectancy and contribute to various health issues.
CO₂ levels are measured in parts per million (ppm), with up to 800 ppm considered safe. Between 1,000 and 1,500 ppm represents a cautionary yellow zone, where fatigue and sleepiness may occur, while levels exceeding 1,500 ppm can lead to severe headaches.
The Mutelcor CO₂ Sensor provides real-time CO₂ concentration readings, empowering users to regulate ventilation and maintain a healthy indoor environment. Understanding how this system operates and records data is essential for effectively managing air quality.
Additionally, CO₂ sensors are instrumental in diverse settings such as hospitals, shopping malls, and offices, where maintaining optimal indoor air quality is paramount.
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Address:- Mutelcor GmbH An der Bastei 42a 47259 Duisburg Germany