Għarfien UVC

Id-dar>riżorsi>Għarfien UVC

Il-gwida tax-xerrej aħħari fuq ix-xiri tiegħek tal-Lampi UV

Ħin: 2020-07-20

Illum il-ġurnata, id-dawl UV qed jitfaċċa bħala r-risposta għall-qtil ta 'viruses u batterji. Madankollu, jekk jonqsu ħafna għarfien tad-dawl UV, se jkun hemm aktar riskji minn benefiċċji.


Jista 'jkun pjuttost skoraġġanti peress li hemm daqstant lampi UV fis-suq u dawn kollha għandhom karatteristiċi u deskrizzjonijiet differenti.


Don't be overwhelmed! We understand that UV Lamp is an investment for you business so you want to be sure you are choosing the matching one to fulfill your need s and budget.


Għalhekk, aħna fornejna gwida komprensiva dwar ix-xiri tal-Lampi UV biex jgħinuk tieħu deċiżjoni infurmata.


L-ewwel PARTI: Dawl Ultravjola


Q1. What is ultraviolet light?


Sunlight is a mixture of light energy at different wavelengths. The wavelengths range from 380 nanometers (nm) to 780 nanometers (nm) are called visible light, while those beyond the range of wavelength are called invisible light.

Ultraviolet light is a kind of electromagnetic radiation with a wavelength between 10 nanometers and 400 nanometers, which is shorter than visible light, but longer than X-rays, and cannot be detected by the human eye.

Although ultraviolet light is known for its disinfection function, for example, it can kill various microorganisms, but the actual efficacy of ultraviolet light depends on the wavelength range.


Q2. What are the differetn types of ultraviolet light?


UV-A, 320nm to 400 nm. It makes up the majority of UV reaching the Earth and can damage our skin.

UV-B, 280nm to 320nm. It can treat skin diseases, but too much exposure will cause sunburn and even skin cancer. Only less than 2% of UVB can reach the earth.

UV-C, 200nm to 280nm. It is particularly good at sterilizing but te penetration ability is very weak. Before reaching the ground, all UVC will be absorbed by ozone in the atmosphere.

In summary, the shorter the wavelength, the stronger the energy, but the weaker the penetration, the faster the disappearance.


Q3. Why you should choose ultraviolet light?


There are several main advantages of using ultraviolet light for disinfection:


  • Metodu ta 'diżinfezzjoni effettiv

Ultraviolet light is a fast and immediate type of disinfection where results can be seen within few minutes.


  • L-ebda kimika meħtieġa

No chemical residue is left behind after the application of ultraviolet light, without life-threatening chemicals.


  • L-ebda prodott sekondarju perikoluż

Id-diżinfezzjoni tad-dawl ultravjola hija attività bla kimika li ma tgħaqqad xejn għajr dawl ultravjola, u għalhekk ma jiġi ffurmat prodott sekondarju.


  • Mhux tossiku

The ultraviolet light disinfection is a physical one and secure for use on food.


Q4. What are the precautions when using ultraviolet light?


Humans are at risk if they are exposed to ultraviolet light even for a short time. The intensity of harm depends upon the exposure time, the intensity and wavelength of ultraviolet light. The following are guidelines:


(1) Use filters, lenses, eyewear, and gloves

(2) użu closed beam paths of ultraviolet light

(3) Use a cover to close the beam when the ultraviolet light source is not in use

(4) Never look straight at the ultraviolet light

(5) Avoid visiting the areas where ultraviolet light is being used

(6) Protect your skins by covering them and decrease the exposure time


Related Knowledge: Għaliex jintuża d-dawl ultravjola għall-isterilizzazzjoni?


Q5. What are the features of UVA sterilization?


With the longer wavelength, UV-A has weaker energy. Therefore, it can't kill virues and bacteria alone.

Madankollu, UV-A has a higher IPCE (Incident Photon-to-Current Efficiency) than other light wavelengths and can achieve photocatalyst activity when comes into contact with the TiO2.

Through the photocatalyst, an oxidation-reduction chemical reaction occurs. All carbon-based organisms, including bacteria, viruses, smoke, formaldehyde, pollen, mites, etc, will be disintegrated into H2O & CO2.


Q6. What are the features of UVB sterilization?


UV-B light can be filtered and can not propagate through glass materials.

People suffering from a shortage of Vitamin D and high blood pressure can exposure to the UV-B to lower their blood pressure.

The favorable features of UV-B waves can be used to protect human beings from infection and treat few skin problems.

However, It has neither strong energy nor strong penetrating ability, so it has little help in sterilization.


Q7. What are the features of UVC sterilization?


UVC has a number of benefits for human beings. It isolates the DNA of a germ that disallows the germ to breed or propagate and minimize its attacks on the living bodies.

However, UV-C can not discriminate between the human body and viruses, bacteria, and will cause harm to the human body.

Meanwhile, UV-C has the tendency of electromagnetic waves to travel in a straight line. Combined with weak penetration ability, the sterilization conditions for UV-C are strict, including small & confined space, long enough operating time, working without the presence of the human.


Related Knowledge: Which UV light is the best?


Q8. How does UVC light kill viruses & bacteria?


UVC works by destroying the DNA or RNA of the bacteria & viruses, without the use of chemicals, making them inactive and unable to reproduce.

Peress li l-ħajja ta 'batterji u viruses singoli hija qasira ħafna, ladarba jitilfu l-abbiltà tar-riproduzzjoni, din tfisser il-mewt. Allura l-iskop ta 'l-isterilizzazzjoni intlaħaq.

Scientific research found that UVC can use very little time to finish the disinfection process and make most microbes reduction up to 99.99%.

Based on this information, UVC lights are believed to be effective at killing viruses & bacteria.


Q9. Can we be disinfected by sunshine?


Jista 'jkun li tistaqsi jekk ninsabu taħt id-dawl tax-xemx li fih l-UVC, nistgħu nkunu ddiżinfettati minnu?

Sfortunatament, ir-risposta hija le. Għalkemm il-kapaċità ta 'sterilizzazzjoni tad-dawl UVC hija qawwija ħafna, il-kapaċità ta' penetrazzjoni għal oġġetti (inkluża l-arja) hija estremament dgħajfa. Qabel ma tasal fl-art, id-dwal UVC kollha jiġu ffiltrati bl-ożonu fl-atmosfera.

Dan hu għaliex għandna bżonn nużaw trasportatur simili għal lampi tad-diżinfezzjoni ultravjola biex niksbu d-diżinfezzjoni.


Q10. Can UVC light kill all viruses immediately?


Jekk jogħġbok oqgħod attent għall-fatt li l-vitalità ta 'viruses u batterji differenti hija differenti. Xi batterji u viruses jistgħu jweġġgħu ladarba jkunu esposti għall-UVC, filwaqt li oħrajn mhumiex.

Jekk id-doża tal-UV mhix biżżejjed, xi vajrusijiet biss jitilfu temporanjament l-attività, u bil-mod isewwu l-istruttura tagħhom stess.

At present, there are no specific figures to show how much UV dose is needed to kill different viruses & bacteria.

But one thing is certain, that is, the sterilization effect is a combination of ultraviolet energy and irradiation time.

Related Knowledge: Can UVC light kill the viruses and bacteria?


Q11. Is Far-UVC light (222nm) safe?


Iktar xjentisti wrew li UVA, UVB u UVC jistgħu jikkawżaw ħsara fuq il-ġilda umana u l-għajnejn, u saħansitra jwasslu għal kanċer.

The latest experiment shows that 222nm Far-UVC may be safe for human health. Because its penetration is very weak and can only reach the surface skin. However:

1. The research on 222nm Far-UVC is still in the experimental stage and far away from commercial application. There is no clinical trial data to prove its safety.

2. UVC LED chip with 222nm Far-UVC is still in the stage of small-batch production and we cannot use this chip for mass production.

3. The cost of UVC LED chip with 222nm Far-UVC is too high to be affordable.

Related Knowledge: Dawl Far-UVC (222 nm) huwa effiċjenti u sikur?


IT-TIENI PARTI: Lampi Ultravjola


Q12. What are the main UV lamps on the market?


On the market, there are four main products taking UV as core competence:

UV Mercury Lamp, popular for the low cost and high power but not suitable for family use. Because it was harmful for human health.

UVC Sterilizing Wand, has only a psychological comfort effect. Because the bacteria will only temporarily lose activity, and then slowly repair structure with insufficient UV dose.

UVC Sterilization Box, is a more suitable application due to the confined space. But it can only sterilize small objects.

UV Air Disinfection Solutions can meet all conditions and is a huge market ignored by everyone.


Related knowledge: Għaliex il-biċċa l-kbira tal-lampi ġermiċidi UV fis-suq mhumiex effettivi?


Q13. What are the advantages of UV mercury lamp?


UV Mercury lamps are more energy-efficient than incandescent and most fluorescent lights. The other advantages are high intensity, clear light output.

Għal dawn ir-raġunijiet, huma wżati għal dwal ta 'l-kbar fuq żona kbira, bħal f'fabbriki, imħażen, u areni ta' l-isport kif ukoll għal fanali tat-triq.

UV mercury lamps are economical and largely admired by the general public. They are used commonly in the industrial and commercial levels and are considered as one of the most reliable forms of lighting.


Q14. What are the disadvantages of UV mercury lamp?


Lampa tal-merkurju UV hija perikoluża għall-bnedmin minħabba:

  • Contain mercury

Mercury has a wide range of acute health effects, including harm to the nervous system, immune system, and gums. According to the Minamata Convention on Mercury, China will not produce and sell such lamps since 2021.

  • Induce Ozone

185nm ultraviolet light of mercury lamps can change O2 in the outside air to O3, which will result in dizziness and nausea affect health.

  • Waste energy

UV mercury lamp needs a long start-up time.

The better applications for UV Mercury Lamps are industry levels, such as sports ground and factories.

Related Knowledge: Għandi nixtri l-UV Mercury Lamp?


Q15. What are the advantages of UV sterilizing wand?


The stuff we use every day like the computer, bed, desks, and kitchenware is a harbor for germs cause the surfaces are touched and re-touched by hundreds of people.

Luckily, UV sterilizing wand can clean surfaces such as sofas, beds, bathtubs, towels, cushions, carpets, and keyboards and reduce surrounding bacteria.

The outstanding advantage is light and portable, which can be easily placed in a handbag, backpack, or suitcase. No matter where you are, you can meet the sterilization requirement at any time.


Q16. What are the disadvantages of UV sterilizing wand?


At first, the amount of UVC light required for sterilization is around 40 millijoules per square centimeter, and it is almost impossible to get in a hand-held little device.

Secondly, UVC does not work well in corners and crevices because it is the spectrum of visible light, and if light cannot enter, it will not produce the same effect.

Thirdly, UV sterilizing wand requires someone to hold it. If the device can destroy the virus, then it can also harm you.

In summary, even if the UV sterilizing wand is functional, their disadvantages outweigh their use.


Related Knowledge: Should I buy UV sterilizing wand?


Q17. What are the advantages of UV sterilization box?


UVC Sterilization Box is a more suitable application. Because it's the most cost-effective sterilization solution.

Ibbażat fuq l-ispiża għolja ta 'l-LED UVC u r-rata ta' tħassir mgħaġġel, bħalissa huwa impossibbli li tinkiseb sterilizzazzjoni effiċjenti.

Imma jekk l-LED UVC jitqiegħed fi spazju limitat, il-problemi kollha jiġu solvuti. Minħabba r-rifless tad-dawl, it-tħassir tal-UVC se jkun relattivament imnaqqas. U l-ispazju ristrett se jippermetti aktar ħin għall-proċess ta 'sterilizzazzjoni.

For example, we can put mobile phones, glasses, and even clothes in the UVC Sterilization box.


Q18. What are the disadvantages of UV sterilization box?


Although you take UVC light as an effective and instant solution, it cannot be denied that it still possesses limited strength.

For those areas where the ultraviolet rays are blocked by other objects, there is no sterilization effect at all.

Meanwhile, normal people have no way to distinguish products that use UVC rays versus other UV rays. Therefore, there are plenty of counterfeit UV consumer products on the market.

Moreover, the biggest advantage of UV sterilization box is that we can only sterilize small objects but not the entire room.


Q19. What are the advantages of UVLED+Photocatalyst?


In the whole sterilization, TiO2 has the bactericidal effect of photocatalyst under UVA irradiation. Not only can kill the virus, but also reduce the formaldehyde in the room.

For viruses not killed by TiO2, UVC can play a supplementary role. Because UVC only provides auxiliary functions and does not require so much energy, it reduces a lot of costs and makes it acceptable to most companies and people.


Q20. What are the disadvantages of UVLED+Photocatalyst?


For most LED lamps, the L70 lifespan is more than 50,000 hours. That means, after using 50,000 hours, the lumen will decay to 70% of the original data.

But in the field of UVC LED, it's difficult to reach the same technology level, because the industrial development has not been matured.

Especially the best application scenario for UVLED+Photocatalyst technology is air sterilization, which has high requirements for the LED lifespan due to the long period of high-intensity operation.

Therefore, few manufacturers can meet the demand.


PART THREE: UV Air Sterilization


Q21. What is the principle of UVLED+Photocatalyst?


The photocatalyst is a general term for photo-semiconductor materials with photocatalytic function represented by nanometer TiO2 (titanium dioxide).

Kisi fuq il-wiċċ tas-sottostrat, taħt l-azzjoni ta 'dawl ultravjola, jista' jikkawża sustanzi organiċi jew inorganiċi li jgħaddu minn reazzjonijiet ta 'tnaqqis ta' ossidazzjoni.

Imbagħad jista 'joqtol b'mod effettiv varjetà ta' batterji, u jista 'jiddekomponi u jittratta b'mod li ma jagħmilx ħsara lil batterji jew fungi. Jista 'wkoll jiddekomponi xi rwejjaħ tal-ħajja kkawżati minn attivitajiet tal-bniedem.

F'dan il-proċess, il-katalist ma jinbidilx fih innifsu jew huwa wkoll mhux ikkunsmat fir-reazzjoni kimika, u għalhekk iseħħ is-sinkronizzazzjoni taż-żewġ proċessi.


Q22. Why is UVLED+Photocatalyst the best sterilization option?


Sabiex tilgħab aħjar ir-rwol ta 'sterilizzazzjoni tal-UVC, aktar u aktar manifatturi qed jagħtu attenzjoni lill-għaqda tad-dawl UVC u tal-Unitajiet tal-HVAC.

Għaliex? Minħabba li l-isterilizzazzjoni tal-arja hija l-aħjar applikazzjoni ta 'UVC għal issa. Huwa biss jista 'jissodisfa l-kundizzjonijiet li ġejjin:

1. Spazju żgħir u limitat

2. Ħin twil biżżejjed ta 'tħaddim

3. Jaħdem fuq il-preżenza tal-bniedem

Meanwhile, through repeated trials and experiments, we have developed an efficient and harmless sterilizing process, which is UVLED+Photocatalyst.

It is the air disinfection system applied for air heating and cooling system, with UV LED Strip & photocatalyst. It has a double effect on killing virus/ bacterial/ VOCs/ animals smelling immediately at a 99.93% killing rate.


Related Knowledge: Teknoloġija ta 'sterilizzazzjoni tal-arja UV effettiva u effiċjenti fl-2020


Q23. X'inhu l- Fotokatalizzatur TiO2?


Titanium dioxide is the naturally occurring oxide of titanium having the chemical formula TiO2, while a photocatalyst is a layering factor holding titanium dioxide as its energetic component.

An oxidation-reduction chemical reaction takes place when light is exposed to the photocatalyst substance. Air can be disinfected and purified using this chemical reaction.

Bosta proprjetajiet bħal proprjetajiet ottiċi u elettroniċi, fotoattività effiċjenti, stabbiltà kimika għolja, spiża baxxa, nuqqas ta 'tossiċità (li tfisser sikurezza għall-ambjent u l-bnedmin), użu mill-ġdid u favur l-eko-ħbiberija jagħmlu lil TiO2 kandidat qawwi għall-proċess ta' fotokatalizzatur.


Q24. Why choose TiO2 as a Fotokatalizzatur?


Huwa maħsub li l-proprjetajiet li jiddekomponu ta 'TiO2 huma magħrufa min-nofs seklu. Il-problema kienet biss fil-bini ta 'l-applikazzjonijiet li jidhru li ssolvew issa.

Allura, issa d-dijossidu tat-titanju jista 'jintuża għall-isterilizzazzjoni tal-arja permezz ta' diversi applikazzjonijiet u waħda minnhom hija d-dwal UV.

It can decompose any pollutants and we all can see the increasing health problems in the world. So, climate change is real and so is the TiO2 for air sterilization.

Bosta esperimenti u riċerki qed juru r-riżultati favur u din hija r-raġuni li aħna sodi għall-bini ta 'diversi applikazzjonijiet ġewwa u barra billi jużawha biex tnaddaf l-arja mill-batterja.


Q25. Can TiO2 cause cancer?


Some time ago, the European Union identified TiO2 as a category 2B carcinogen: May cause cancer to humans, there is insufficient evidence to prove carcinogenicity to laboratory animals, and insufficient evidence of carcinogenicity to humans.

The same category 2B except for " TiO2", there is also "coffee".

In fact, as long as humans are exposed to high-concentration (10mg/m3) of insoluble tiny particles for a long time, it may cause related diseases. But even those who are engaged in the production of TiO2, the concentration is only between 0.3mg/m3-6mg/m3.

What's more, when TiO2 is processed, it is firmly embedded in the molecular gap of the carrier (like air conditioning filter), and it can't run into the human lungs.

Therefore, please don't over-interpret the EU's carcinogen label for TiO2.


Q26. What is Organic LED?


An Organic LED (Light Emitting Diode) is also known as OLED or simply an Organic LED. It is a light-emitting diode (LED) in which the discharged electroluminescent layer is a film of an organic compound that emits light in response to an electric current.

The OLED emitter is the dominant ingredient in an OLED display. It is an organic material (made of Carbon) that radiates light when electricity is exerted. The fundamental formation of an OLED is an emissive coating, the middle between a cathode (which is infusing electrons) and an anode (which eliminates electrons).


Q27. What are the features of Organic LED?


  • Advantages of Organic LED


Organic LED has a great color rendering index (CRI), it is the ability to render actual colors of an object as compared to the natural light.

They are energy efficient or power-saving and cost-saving.

They are physically compact, easily portable.

  • Disadvantages of Organic LED


The constructing and assembling task of an Organic LED is very costly.

They are not water-proof so water or fluids can cause damage to them.


Therefore, please don't over-interpret the EU's carcinogen label for TiO2.


Q28. What is Inorganic LED?


Using crystalline semiconductor, Inorganic LEDs (also known as micro-LED) are manufactured, which are also light-emitting diodes (LEDs). The optical discharge wavelength can be determined by changing the configuration and composition of the substance. Germanium, gallium arsenide, gallium nitride, etc are some common materials used in this technology.

In contrast of organic LED, it is entirely packaged with inorganic materials.


Q29. What are the features of Inorganic LED?


  • Advantages of Inorganic LED


Inorganic LEDs are valued for their low energy utilization.

The lifespan of inorganic LEDs can be than 100,000 hours.

Inorganic LEDs are very delicate power electronics.


  • Disadvantages of Inorganic LED


After the evolution of Inorganic LEDs, the blueprint of lighting systems has been remarkably tangled and tricky.


These devices are also known as self-heating because they produce a lot of heat within the device due to the use of semiconductors.


Q30. How does the photodegradation of formaldehyde by TiO2?


Formaldehyde (HCHO) is one of the most common indoor pollutants.

Photocatalysis is an emerging and promising technology for indoor air purification by using TiO2 as a catalyst under the illumination of UV light, which can oxidize the VOCs into CO2 and H2O at room temperature and atmospheric pressure.

In order to remove HCHO efficiently, The TiO2/AC network film was prepared by loading nanometer particle TiO2 on the surface of activated carbon.

The photocatalytic degradation of gaseous HCHO was performed by TiO2/AC network film under the irradiation of UV light.

HCHO can be photocatalytic degraded on the surface of nanometer TiO2 under the illumination of UV light, during which the photo-production holes and electronics can react with the water molecules that adsorb on the catalyst surface to generate hydroxyl.


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