Ozh1mIr5Zk0

~sub: http://youtube.com/ChemTruthers ~credits video: http://youtube.com/R3zn8D

Geoengineering Frankenstorm: Hurricane Sandy and the Air Force Weather Weapon System -- part 1
http://rezn8d.net/2012/11/02/geoengineering-frankenstorm-hurricane-sandy-afww... (http://rezn8d.net/2012/11/02/geoengineering-frankenstorm-hurricane-sandy-afwws-pt1/)

Geoengineering Frankenstorm: Hurricane Sandy and the Air Force Weather Weapon System -- part 2
http://rezn8d.net/2012/11/03/geoengineering-frankenstorm-hurricane-sandy-and-... (http://rezn8d.net/2012/11/03/geoengineering-frankenstorm-hurricane-sandy-and-the-air-force-weather-weapon-system-part-2/)

ClimateViewer 3D:
http://climateviewer.com

Planned and Inadvertent Weather Modification/Weather Modification Association
Monday, 21 April 2008
New Unconventional Concepts and Legal Ramifications
https://ams.confex.com/ams/17WModWMA/techprogram/session_21926.htm

On Engineering Hurricanes
William R. Cotton, Colorado State Univ., Fort Collins, CO; and S. M. Saleeby
https://ams.confex.com/ams/17WModWMA/techprogram/paper_139450.htm

In the last year there have been two papers that have proposed that seeding hurricanes with small hygroscopic particles, as opposed to conventional giant hygroscopic particle seeding, could lead to the reduction in their intensity (Cotton et al., 2007; Rosenfeld et al., 2007). The Cotton et al. (2007) paper was based preliminary results of simulations of the impact of African dust on hurricane intensity (Zhang et al., 2007), which showed that dust acting as CCN influenced the storm development by inducing changes in the hydrometeor properties, modifying the storm diabatic heating distribution and thermodynamic structure, and ultimately influencing the storm intensity through complex dynamical responses. Some simulated storm intensities showed a monotonic decrease in storm intensity with increasing concentrations of CCN under certain configurations of the model but this trend was easily modified just by introducing slight variations in the GCCN profile. Thus, Zhang et al. (2007) concluded that the physical processes responsible for the impact of dust as nucleating aerosols on hurricane development need to be examined in the future under a wide range of environmental conditions.

Since then Henian Zhang has carried out more simulations that illustrate that the response is by no means simple. In some cases increasing CCN leads to a strengthening of hurricane intensity. Moreover, the results of introducing dust acting at CCN further in the lifecycle of the storm reveals that the response to CCN varies greatly depending on the stage of introduction of the aerosol. Thus this work illustrates that even using simple, rather idealized simulations the response of a hurricane to aerosol can be quite nonlinear. This makes the potential modification of hurricanes to small-particle hygroscopic seeding even more challenging than envisioned by Cotton et al. (2007) and Rosenfeld et al. (2007). Nonetheless we urge that this topic should be investigated much more extensively and in further detail.

American Meteorological Society:
New Unconventional Concepts and Legal Ramifications
https://ams.confex.com/ams/17WModWMA/techprogram/session_21926.htm

Chair: Joe Golden, Univ. of Colorado/CIRES/NOAA/GSD, Boulder, CO

2.1 Atmospheric heating as a research tool
Lyle M. Jenkins, Eastlund Scientific Enterprises Corporation, Houston, TX; and B. J. Eastlund
https://ams.confex.com/ams/17WModWMA/techprogram/paper_139228.htm
https://ams.confex.com/ams/pdfpapers/139228.pdf

2.2 Reducing hurricane intensity by cooling the upper mixed layer using arrays of Atmocean, Inc.'s wave-driven upwelling pumps
Philip W. Kithil, Atmocean, Inc., Santa Fe, NM; and I. Ginis
https://ams.confex.com/ams/17WModWMA/techprogram/paper_139127.htm

2.3 On Engineering Hurricanes
William R. Cotton, Colorado State Univ., Fort Collins, CO; and S. M. Saleeby
https://ams.confex.com/ams/17WModWMA/techprogram/paper_139450.htm
https://ams.confex.com/ams/pdfpapers/139450.pdf

2.4 A machine to get rid of hurricanes
Brian Sandler, none, West Bloomfield, MI
https://ams.confex.com/ams/17WModWMA/techprogram/paper_137069.htm
https://ams.confex.com/ams/pdfpapers/137069.pdf

Weather Warfare Documentary


http://www.youtube.com/watch?v=WgzFWy2K_M8


Sandy, Evan, Oswald... Weather Warfare? - http://weatherwarfare.worldatwar.info

List and Explanation of Hurricane Sandy Unusual Occurrences and Coincidences

#1 – Hurricane Sandy was the largest Atlantic hurricane ever recorded. (as measured by diameter with winds spanning 1,100 miles (1,800 km)).

#2 – If you look at the topography, when the storm reaches North America it continues to stay the around the same distance away from the coastline. (It is very rare that coastline effects the path of a storm. It seems that coastline had a lot to play in the track of this storm. Note the size of the North American coastline and this sheer distance of coastline that effected Super-storm Sandy).

#3 – The storm curves with with the coastline of North Carolina, South Carolina and Florida. (Once again, it is very rare that coastline effects the path of a storm, let alone curves with the coastline of a continent).

#4 – The storm speeds up just as it heads for New Jersey. (From the start, the storm moved at a steady rate and then just before the major catastrophe of the storm, it speeds up, just before it circles New York City).

#5 – The storm moves in a circle around New York City (New York City is the business capital of the United States and the world. New York City would be the most likely place for an attack. United States is where the Twin Towers were destroyed on September 11, 2001).

More unusual occurrences and coincidences.

#6 – Hurricane Sandy is the largest Atlantic hurricane ever recorded and it hits late in the hurricane season. (You would think that the largest hurricane ever recorded would hit in peak period).

#7 – This hurricane is very far north in comparison to other Atlantic hurricanes. (Most Atlantic hurricanes hit Florida and very rarely go any further. If hurricanes do go any further, they usually head from west to east because the prevailing winds blow that direction. What happened with Hurricane Sandy was the complete opposite).

#8 – Sandy had the biggest storm surge ever seen. (The storm surge of Sandy has created some of the worst flooding from a hurricane in a very long time).

#9 – Hurricane Sandy is very fast for a hurricane. (So, Hurricane Sandy is the largest in diameter, its very fast for a hurricane, its not at the right time, its very far north for a hurricane and had the worst flooding from a hurricane in a very long time. Too many coincidences for me to accept that this storm is a natural creation).

#10 – Forecasters labeled Hurricane Sandy “Frankenstorm“… If you remember “Frankenstein” was created, he was not born, he was manufactured.

#11 – Hurricane Sandy sped up just before New Jersey, just before the major catastrophe of the storm. It is very coincidental that Hurricane Sandy was dubbed Frankenstorm the same day the National Weather Service predicted the storm would make landfall in New Jersey.

#12 – Sandy had the most kinetic energy of all tropical cyclones on record at 222 trillion Joules (the equivalent of 3.5 Little Boy Hiroshima atomic bombs).

http://weatherwarfare.worldatwar.info/sources/