Abstract
Background, aim, and scope
The novel system of ultraviolet light-emitting diodes (UV LEDs) was studied in water disinfection. Conventional UV lamps, like mercury vapor lamp, consume much energy and are considered to be problem waste after use. UV LEDs are energy efficient and free of toxicants. This study showed the suitability of LEDs in disinfection and provided information of the effect of two emitted wavelengths and different test mediums to Escherichia coli destruction.
Materials and methods
Common laboratory strain of E. coli (K12) was used and the effects of two emitted wavelengths (269 and 276 nm) were investigated with two photolytic batch reactors both including ten LEDs. The effects of test medium were examined with ultrapure water, nutrient and water, and nutrient and water with humic acids.
Results
Efficiency of reactors was almost the same even though the one emitting higher wavelength had doubled optical power compared to the other. Therefore, the effect of wavelength was evident and the radiation emitted at 269 nm was more powerful. Also, the impact of background was studied and noticed to have only slight deteriorating effect. In the 5-min experiment, the bacterial reduction of three to four log colony-forming units (CFU) per cubic centimeter was achieved, in all cases.
Discussion
When turbidity of the test medium was greater, part of the UV radiation was spent on the absorption and reactions with extra substances on liquid. Humic acids can also coat the bacteria reducing the sensitivity of the cells to UV light. The lower wavelength was distinctly more efficient when the optical power is considered, even though the difference of wavelengths was small. The reason presumably is the greater absorption of DNA causing more efficient bacterial breakage.
Conclusions
UV LEDs were efficient in E. coli destruction, even if LEDs were considered to have rather low optical power. The effect of wavelengths was noticeable but the test medium did not have much impact.
Recommendations and perspectives
This study found UV LEDs to be an optimal method for bacterial disinfection. The emitted wavelength was found to be an essential factor when using LEDs; thus, care should be taken in selecting the proper LED for maximum disinfection.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Cantwell RE, Hofmann R, Templeton MR (2008) Interactions between humic matter and bacteria when disinfecting water with UV light. J Appl Microbiol 105:25–35
Crawford AH, Banas MA, Ross MP, Ruby DS, Nelson JS, Boucher R, Allerman AA (eds) (2005) Final LDRD report: ultraviolet water purification systems for rural environments and mobile applications. Sandia National Laboratories, Albuquerque
Hjinen WAM, Beerendonk EF, Medema GJ (2006) Inactivation credit of UV radiation for viruses, bacteria and protozoan (oo)cysts in water: a review. Water Res 40:3–22
Hu X, Deng J, Zhang JP, Lunev A, Bilenko Y, Katona T, Shur MS, Gaska R, Shatalov M, Khan A (2006) Deep ultraviolet light-emitting diodes. Phys Stat Sol 203:1815–1818
Jeong J, Kim JY, Yoon J (2006) The role of reactive oxygen species in the electrochemical inactivation of microorganisms. Env Sci Tech 40:6117–6122
Khan MA (2006) AlGaN multiple quantum well based deep UV LEDs and their applications. Phys Stat Sol 203:1764–1770
Koivunen J, Heinonen-Tanski H (2005) Inactivation of enteric microorganisms with chemical disinfectants, UV radiation and combined chemical/UV treatments. Water Res 39:1519–1526
Polcaro AM, Vacca A, Mascia M, Palmas S, Pompei R, Laconi S (2007) Characterization of a stirred tank electrochemical cell for water disinfection processes. Electrochim Acta 52:2595–2602
Soloshenko IA, Bazhenov VY, Khomich VA, Tsiolko VV, Potapchenko NG (2006) Comparative research of efficiency of water decontamination by UV radiation of cold hollow cathode discharge plasma versus that of low- and medium-pressure lamps. IEEE Trans Plasma Sci 34:1365–1369
Taniyasu Y, Kasu M, Makimoto T (2006) An aluminum nitride light-emitting diode with a wavelength of 210 nm. Nature 441:325–328
Acknowledgements
This work was financially supported by the Finnish Environmental Science and Technology graduate school (EnSTe), EU, and city of Mikkeli. The authors greatly thank Ms. Taija Holm for laboratory assistance.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Vilhunen, S., Särkkä, H. & Sillanpää, M. Ultraviolet light-emitting diodes in water disinfection. Environ Sci Pollut Res 16, 439–442 (2009). https://doi.org/10.1007/s11356-009-0103-y
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11356-009-0103-y