Environmental Engineering Reference
In-Depth Information
[24]
Skalny JD, Matejcik S, Mikoviny T, Eden S, Mason NJ. Ozone generation in a
negative corona discharge fed with N
2
O and O
2
. Journal of Physics D-Applied
Physics, 2004(37):1052-1057.
[25]
Stefanovic I, Bibinov NK, Deryugin AA, Vinogradov IP, Napartovich AP,
Wiesemann K. Kinetics of ozone and nitric oxides in dielectric barrier discharges
in O
2
/NO
x
and N
2
/O
2
/NO
x
mixtures. Plasma Sources Science & Technology,
2001(10):406-416.
[26]
Skalny JD, Mikoviny T, Mason NJ. Experimental investigations and modeling
studies of ozone producing corona discharges. Czechoslovak Journal of Physics,
2002(23):29-37.
[27]
Novoselov YN, Ryzhov VV, Suslov AI. Effect of electronegative impurities on
the generation of ozone in air. Technical Physics, 1999(44):44-47.
[28]
Skalny JD, Mikoviny T, Mason NJ, Sobek V. The effect of gaseous diluents on
ozone generation from oxygen. Ozone-Science & Engineering, 2002(24):29-37.
[29]
Chu J, Wu C, Chen W. Ozone Technology and Application. Beijing: Chemical
Industry Press, 2002.
[30]
Liu W, Wu J, Chen Y. Ozone generator modification with Al
2
O
3
ceramic
substrates. Ceramic Technology, 2001(22):175-179.
[31]
Zhang Z, Bai M. High concentration ozone generator discharge experimental
study. High Voltage Technique, 2003(29):33-35.
[32]
Park SL, Moon JD, Lee SH, Shin SY. Effective ozone generation utilizing a
meshed-plate electrode in a dielectric-barrier discharge type ozone generator.
Journal of Electrostatics, 2006(64):275-282.
[33]
Zhao C, He Z, Li J. Research advances of gas discharge ozone generator. High
Voltage Technique, 2002(28):44-46.
[34]
Wang F, Zhu T, Yao H. Design of ozone generating pipe and its stability research.
Hehai University Changzhou Campus Journal, 2002(16):1-5.
[35]
Zhu T, Zhou H, Bian X. Research of organic polymer dielectric body ozone
generating pipe properties. High Voltage Technique, 2002(28):38-40.
[36]
Kishida H, Ishizaka M, Tanaka Y, Ehara Y, Ito T. Superposed effect of UV rays
on ozone generation by electrical discharge. Electrical Engineering in Japan,
1998(123):8-14.
[37]
Kishida H, Tamura M, Ehara Y, Ito T, Onouchi H. Improvement in ozone yield
using discharge superposition method. Electrical Engineering in Japan,
1999(126):1-6.
[38]
Hakiai K, Ihara S, Satoh S, Yamabe C. Characteristics of ozone generation by a
diffuse glow discharge at atmospheric pressure using a double discharge method.
Electrical Engineering in Japan, 1999(127):8-14.
[39]
Masuda S, Koizumi S, Inoue J, Araki H. Production of ozone by surface and
glow-discharge at cryogenic temperatures. IEEE Transactions on Industry
Applications, 1988(24):928-933.
Search WWH ::
Custom Search