AIM
Nano-scaled filter material for Industry
Fortune core is committed to improving product performance and providing research solutions for industrialized large-scale purposes together with R & D institutions, universities and customers. We ceaselessly seek the most innovative and reliable nanofiber formula for the specific industrial filtration fields. ForPolymer nanofiber can be applied in a wide range of different applications and are available in a variety of environments.
- to protect gas turbine blades by improving the filtration efficiency in gas turbine generators and for more effective pulsing by allowing surface filtration
- to improve efficiency and extend lifetime of HVAC
- to enhance of the effectiveness of combustor of automotive engine
- to get involve in the liquid, dust collectors and various other applications to achieve more reliable, permeable and less resistant level
R&D
Research findings
EN779/EN1822 compliant
100% Mechanically structured by Forpolymer nanofiber- allows filtration purely by its mechanical structure as opposed to other conventional technologies such as electrostatic.
As light as feather
In addition to high efficiency both industrial air and liquid filtration, ForPolymer allow higher efficiency and lower pressure drop compared to other conventional filter medias by providing senseless burden.
Ultrafine performance with high permeability
Ability to provide solution and lines to specific field to reduce air pollution and slow down to some extent global warming and meet the increasing demand for high performance filters.
Broadened scopes
Able to replace glassfiber or conventional filter materials by boosting the their properties and attributes.
Product
Scope of application
Gas turbine
A gas turbine is a combustion engine at the heart of a power plant that can convert natural gas or other liquid fuels to mechanical energy. This energy then drives a generator that produces the electrical energy that moves along power lines to homes and businesses.
Test conditions: 32L/min,100cm²,Nacl 0.3μm Particulate | |||
Model | Weight(g/㎡) | Filtration efficiency | Resistance(Pa) |
| Nano-H10 | 65±3 | ≥90% | 20±3 |
| Nano-H11 | 65±3 | ≥95% | 20±3 |
| Nano-H12 | 65±3 | ≥99.5% | 20±3 |
| Nano-H13 | 65±3 | ≥99.97% | 20±3 |
| Nano-H10-SL | 70±3 | ≥90% | 20±3 |
| Nano-H11-SL | 70±3 | ≥95% | 20±3 |
| Nano-H12-SL | 70±3 | ≥99.5% | 20±3 |
| Nano-H13-SL | 70±3 | ≥99.97% | 20±3 |
HVAC
HVAC stands for heating, ventilation, and air conditioning. This system provides heating and cooling to residential and commercial buildings. You can find HVAC systems anywhere from single-family homes to submarines where they provide the means for environmental comfort.
Becoming more and more popular in new construction, these systems use fresh air from outdoors to provide high indoor air quality. The V in HVAC, or ventilation, is the process of replacing or exchanging air within a space. This provides a better quality of air indoors and involves the removal of moisture, smoke, odors, heat, dust, airborne bacteria, carbon dioxide, and other gases as well as temperature control and oxygen replenishment.
ForPolymer provides a better quality of air controls and involves the removal of moisture, smoke, odors, heat, dust, airborne bacteria, carbon dioxide, and other gases etc.
Air pollution control
Forpolymer Nanofibers and frames are integrated to make filters with different various specifications. Meanwhile, anti‑bacterial and anti‑allergic substances can also be added to the nanofibers to enable the filters to have better resistance performance.
With higher dust capacity Forpolymer Nanofiber can be an effective replacement in auto filters and air purifier filters due to properties of high efficiency and low resistance as well as High CADR value of particulate matter, High CCM of particulate matter and resistance ability to high temperature and humidity.
Automotive
The environment is getting more and more complicated and many rigorous environmental protection regulations is on the way to encourage the prefered adoption of biofuels and cleaner fuels such as electric energy over traditional fossil energy and meanwhile it is more restrict to run the tradition fossil engine.
Positively ForPolymer nanofiber allows cleaner air to enter the engine, allowing efficient engine combustion and maximum protection against dirt particulates and contaminants. The technology field depends on ForPolymer nanofiber technology combined with customized nonwoven-fabric substrates as a carrier that is developed to complement the nanocore layer.
