New Methods for Helicopter for Free Flight Inside Clouds and Precipitation Enhancement
American Journal of Environmental Protection
Volume 5, Issue 3-1, June 2016, Pages: 1-9
Received: Jul. 30, 2015; Accepted: Jul. 31, 2015; Published: Nov. 30, 2015
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Authors
Richard O. Claus, NanoSonic Inc. Pembroke, Virginia, USA
Tamara V. Tulaikova, Wave Research Center at Prokhorov General Physics Institute, Moscow, Russia
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Abstract
The method of considerable decrease the CO2 concentration in atmosphere based on precipitation enchainment is considered. Nowadays approaches for cloud reorganization are very important, because the sum of CO2 and water vapor that collected in clouds makes 95% mass of greenhouse gases. Usage of helicopter for free flight inside natural clouds is considered in comparison with traditional airplanes. The method for anti-icing coating for helicopter and laboratory experiments with formulas for the cloud droplets adhesion/separation are presented. New technology for fast drying of air in medium near helicopter rotor is outlined.
Keywords
Acoustics, Helicopter, CO2, Clouds, Precipitation Enhancement
To cite this article
Richard O. Claus, Tamara V. Tulaikova, New Methods for Helicopter for Free Flight Inside Clouds and Precipitation Enhancement, American Journal of Environmental Protection. Special Issue: New Technologies and Geoengineering Approaches for Climate. Vol. 5, No. 3-1, 2016, pp. 1-9. doi: 10.11648/j.ajep.s.2016050301.11
References
[1]
IPCC: Summary for Policymakers, In: “Climate Change 2014, Mitigation of Climate Change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change”, Edenhofer, O., R. Pichs-Madruga, Y. Sokona, E. Farahani, S. Kadner, K. Seyboth, A. Adler, I. Baum, S. Brunner, P. Eickemeier, B. Kriemann, J. Savolainen, S. Schlömer, C. von Stechow, T. Zwickel and J.C. Minx (eds). Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 2014.
[2]
R.T. Bruintjes. “A review of cloud seeding experiments to enhance precipitation and some new prospects”. BAMS, v.80, 1999, pp.805-820.
[3]
T. Tulaikova, S. Amirova. “The effective possibility for atmosphere CO2 purification”, 2012, Lap-Lambert, Germany
[4]
Svetlana Amirova, Tamara Tulaikova. “One possibility for atmosphere CO2 purification to get climate recovery”. Science Discovery in Science PG. Special Issue: New Technical Ideas for Climate Recovery. Vol. 3, No. 1-2, 2015, pp.1-6.
[5]
T. Tulaikova, S. Amirova. “The method for effective CO2 purification in the atmosphere”. Global Journal of Science Frontier Research. Vol. 15-H, No.1, Version 1.0, 2015, pp. 1-9.
[6]
I. Langmuir, I. and V. Schaefer. “Improved methods of conditioning surfaces for adsorption” J. Am. Chem. Soc., 59, 1937, pp.1762-1763.
[7]
A.S. Drofa. et al. “Formation of cloud microstructure: the role of hygroscopic particles”. Izvestiya. Atmospheric and oceanic physics, v.42, 2006, pp. 355-366.
[8]
S.M Shmeter, G.P. Beryulev. “Efficiency of cloud and precipitation modification with hygroscopic aerosols”. Rus. Meteorology and Hydrology, v.2, 2005, pp. 43-60.
[9]
Mednikov, A.P. “Acoustic coagulation and precipitation of aerosols”. New York, Consultants Bureau, 1965.
[10]
T.V Tulaikova, A.V. Michtchenko, S.R. Amirova. “Acoustic rains”. Moscow, Physmathkniga-press, 2010
[11]
H. Yunge. ”Chemical compounds and radio-activity in atmosphere”. Clarendon, Oxford, 1965.
[12]
S.I Rasool, ed. “Chemistry of the lower atmosphere”. Plenum, New York, 1973.
[13]
E.K. Bjutner. “The influence of pollution of the ocean surface to transport for heat, gas and humidity”. Hydromet-press, Leningrad, 1985.
[14]
Edwin A. Roehl JR., Ruby C. Daamen, John B. Cook. “Estimating seawater intrusion impacts on coastal intakes as a result of climate change”. Journal - American Water Works Association,. http://dx.doi.org/10.5942/jawwa2013.105.0131
[15]
H.C. Broecher, J. Peterman. “The influence of wind on CO2 exchange in a wind-water tunnel including the effect of minelayers”. J. Mar. Res., V. 36, 1978, pp. 595-610.
[16]
R. Wanninkhof, M. Knox. “Chemical enhancement of CO2 exchange in natural water”. Limnol. Oceanogr., v. 41, 1996, pp. 689-68.
[17]
S. Kobayashi, T. Oguchi, S. Tanelli, E. Im. “Backscattering enhancement on spheroid-shaped hydrometeors: Considerations in water and ice particles uniform size and Marshall-Palmer distributed rains”. Radio Science, V. 42, doi: 10.1029/2006RS003503.
[18]
“The Pike. Method for determination of wet solder materials”. GOST 23904-79, from 11.29.1979, Moscow, Russia.
[19]
T.V. Tulaikova. “A method for the elimination and prevention of icing of the rotor of the helicopter in the clouds”. Patent Ru2541548 from 24.07.2013.
[20]
G.G. Blutshtein, E.V. Busigin, S.G. Golberg, V.V. Nam. “Electro heating anti-icing system, for helicopters for example”. Patern RU 2226481 from 19.07.2002.
[21]
V.D. Stepanenko, G.G. Shukin at ell. “The method for decrease the icing for aircraft”. PatentRU 2228883, from 11.01.2002.
[22]
Yu. S. Saphrigin, Yu. V. Buksha at ell. “The method of anti icing substrat”. Patent RU 2212428, from 25.04.2002.
[23]
R Heikky, Yu.-P. Nieminen. “The anti icing liquid for aircraft and related roads”. Patent RU 2191199, from 26.08.1998.
[24]
A.A. Chernikov, G.P. Beriulev, V.P. Korneev. “The method of active action for clouds”. Patent RU 2295231 from 07.07.2005.
[25]
I.P. Mazin. “Physical fundamentals of aircraft icing”. Moscow: Gidrometeoizdat, 1957.
[26]
E.V. Zielinska, E.Y. Voronin. “Theoretical aspects of the use of hydro resources”. Moscow: The Academy of Natural Sciences, 2009.
[27]
Y. S. Sedunov. “Physics of liquid-phase in the atmosphere”. Leningrad: Gidrometeoizdat, 1972.
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