The design of b-MOLA
Creating a portable air purifier with medical standards
b-MOLA has 3 filtering systems: HEPA filter, NCCO filter and Active Oxygen Generator.
The Medical Grade Purification Technology
How do b-MOLA Air Purifiers work?
b-MOLA Air Purifier has 3 filtering systems: HEPA filter, NCCO filter and Active Oxygen Generator. The system can clean 99% of any harmful and unhealthy elements in the air. This is the same structure used in hospital air purification systems.
Check out how these filtering systems work:
1. Medical grade HEPA
Eliminating Pollutants
To eliminate the solid pollutants in the air such as pollen, dust, and smoke, b-MOLA employs a Medical Grade HEPA filter. The HEPA filter is a highly efficient shield to trap the particles in and only needs to be replaced around once a year.
Put a b-MOLA in any room or car and never worry about allergy season again. With a single HEPA filter, it can capture any allergenic pollen, PM2.5, and smoke for 6 months all the way up to 18 months; the average is 12 months. Just place it in any room or space and let b-Mola take care of the rest.
2. NCCO Reactor
(Nano Confined Catalytic Oxidation)
Sanitisation
Instead of absorbing the chemical pollutants like traditional air purification technology, NCCO sanitizes up to 99.97% of harmful air and smells. Instantly destroy any room odor and air pollutants with b-MOLA with its patented NCCO technology.
Conventional air purifiers, such as active charcoal, can only absorb but do not decompose of the pollutants. As a result, it can only last about 3 months. Once the filter is saturated, the absorbed pollutants will be released back into the air and cause “secondary pollution”, which can be very harmful to your health. In contrast, NCCO decomposes pollutants and can last 12 years without being replaced.
NCCO is so effective and cost saving, it is used in many hospitals, banks, metro stations, and other public areas.
3. Active Oxygen Generator
Prevent infections
The first air purifier equipped with an active oxygen generator, the b-MOLA Go can kill 99.7% of all bacterias and viruses by adsorbing it into the HEPA filter. Unlike traditional UV-C and OZONE air purifier, active oxygen is safe and can be decomposed by NCCO filters; causing no harm to humans.
This technology has been used to protect people from infections in hospitals.
Do Air Purifiers Actually Work?
Many people may have air quality issues at home and they may wonder - do air purifiers really help in purifying air and alleviating some health issues caused by poor air quality? The answer is YES! b-MOLA air purifiers are medical grade air purifiers which comply with many medical standards. Our air purifiers undergo various kinds of laboratory experiments before selling to the consumer market. Check out the purification and sterilising tests done below:
The Smoke Purification Testing
We used PH smoke pellets to generate smoke. One of these small pellets can last over 40 seconds; making the smoke hard to dissipate. b-MOLA can clean the smoke within the first 20 seconds, which proves it has the capability to clean any solid pollutants such as smoke, dust, pollen, mites, or PM2.5.
The VOC Purification Test
We used acetone[1] to test the ability to purify VOC. After we dropped the acetone in the beaker, it started to volatilize in the box and the VOC concentration indicated a drastic increase. In the end, the data was stable around 170 ppm[2]. When b-MOLA was turned on, almost all the acetone in the box was purified; showcasing the capability of b-MOLA against VOC and other toxic gases.[1]Acetone (propanone) is the organic compound with the formula (CH3)2CO. It is a colorless, volatile, flammable liquid that is the simplest and smallest ketone.[2]ppm and ppb are the concentration units. ppm = parts per million. ppb = parts per billion. 1 ppm = 1000 ppb.
The Sterilisation Test
We used two Petri dishes for this testing. One of the Petri dishes was put in the open area while the other was put in a space with the b-MOLA GO. Then we turned on b-MOLA GO and timed what happened.3 days (72 hours) later, the petri dish in the open area generated visible bacterial colonies, which means an exponential bacterial growth occurred. The petri dish with the b-MOLA GO, however, looked the same as before. It proves b-MOLA GO is effective in killing bacterias and viruses.