The Rainmaker Returns? I am surprized that internet is skeptical of ionization, in Oman, they are declaring 18% increase in rain in limited areas–and it is done only if clouds looks favorable. So, I looked up what was on the internet and found at this site the following.
I know what you’re thinking, I must be crazy, right?
Though plenty of scientists would agree with you, a few companies are touting their ability to create rain from clouds that would normally produce none. This process is barely understood by the scientific community and has yet to become proven science, nonetheless these devices are being field-tested around the globe. Most people are unaware that weather modification by cloud seeding has gone on for years, and even less are aware of this new technology.
Cloud seeding via ionization technology is highly controversial. When Meteo Systemsdeployed their WeatherTec system in Abu Dhabi and claimed to make it rain 50 times in the desert, this statement caught the ear of the World Meteorological Organization’sExpert Team on Weather Modification, who convened a meeting March 22-24, 2010. Their conclusion: don’t believe the hype.
Not to be dismayed, companies like Meteo Systems continue to make claims while experimenting in our skies. This article will list companies and technology involved in artificial ionization, electric rainmaking, fog dispersal, and atmospheric pollution removal.
Meteo Systems – WeatherTec™
WEATHERTEC™ is the new leading-edge technology to secure the future supply of freshwater in many areas of need. It also has other applications to reduce some of the most negative impacts of weather.
- WeatherTec™ uses electrical charge to create attractive forces between particles:
- If supercooled droplets touch certain particles (called contact freezing nuclei) they will freeze instantly into ice particles
- The electric charge caused by WeatherTec™ increases the likelihood that this will occur
WeatherTec cloud ionizers were used in Abu Dhabi for precipitation enhancement, with claimed results of making it rain over 50 times when forecasters expected no rain. Their system employs radio frequency antennas to emit negatively charged ions which statically charge clouds, increasing water drop size, causing precipitation. An easier way to put it is the antennas create statically charged dust particles in the cloud that attracts water vapor, forming droplets that fall to the ground.
- United States Patent Application 20110174892 – APPARATUS AND RELATED METHODS FOR WEATHER MODIFICATION BY ELECTRICAL PROCESSES IN THE ATMOSPHERE
- Have scientists discovered how to create downpours in the desert?
- Scientists Make Dozens of Storms in the Abu Dhabi Desert?
- Secret Scientists Claim to Create Rain in Arab Desert
- They’ve Made It Rain in the Desert — or Have They?
- Rainmaking in Middle Eastern Desert: Success or Scam?
- World Intellectual Property Organization – WeatherTec Patent Application
AST Clear Sky Manager TM
Based on the ILAP Technology (Influence on the Local Atmospheric Processes), Clear Sky Manager TM
has been developed by Advanced Synoptic Technologies Ltd (AST) for managing, at a local atmospheric level, humidity density in the sky in order to pursue a wide range of possible objectives: create precipitation, avoid (or create) snow, disperse fog and smog or, generally speaking, conduct any type of atmospheric action that may improve working/living conditions at ground level.
Based on top of the art technology, Clear Sky Manager TM relies on high-speed ionic generators for initiating and managing upwards/downwards air streams within a given area, up to 100 km diameter.
The system requires the installation on the ground of 5 to 8 ionic generators that are locally distributed in accordance to local ground and meteorological conditions.
Three main operational modes can be programmed and implemented on the basis of the equipment:
1. “Rainfall” / “Snowfall”
The “Rainfall” mode is meant for initiating or intensifying atmospheric precipitation within a given area, up to 100 km wide. It may be used for agricultural development (possibly in connection with an irrigation infrastructure) or for the prevention and fighting of forest fires. This mode is typically of use in sunny and dry regions.
The system creates a stable upward air stream that carries with it a great amount of atmospheric moisture. On the way to the upper atmosphere, the air is cooling. The atmospheric moisture is condensed, creating clouds or intensifying already existing ones so that precipitation occurs.
The upward air stream height and intensity are adjusted according to the desired results by setting up (by local or remote control) the parameters of the ion generator’s working mode.
Full size exercises have been conducted in Australia and, more recently, in Dubai, with a resounding success.
The “Snowfall” mode is identical in its essence but is meant for mountain resorts where snow is needed in great quantity for the quality of skying areas or for the safe conduct of winter-sport events.
2. “No Fog” – “No Smog”
The upward air streams created by Clear Sky Manager TM cause the compensating downward air streams that can be used for enforcing dissipation of clouds and fogs.
The area under control can expand to 100 km² (10 x 10 km). The specific area to protect may be an airport or a seaport, where traffic congestion can be created in case of heavy fog. Clear Sky Manager TM guarantees a clear visibility up to a 1,000 m distance, meeting the criteria of fog destruction.
In regions where industry, traffic or land fires create haze or smog, the same technology is able to clear large portions of cities and countryside, suppressing or diminishing the risks and dangers for the health (and for the traffic) associated with a polluted atmosphere.
3. “Stop Snow” – “Stop Hail” – “ Stop Rain”
The creation of upward warm air streams can be used for building heat walls at the limit of a territory and preventing the incoming snow, hail and rain clouds to enter the protected region.
One field of application are airports, where snowfalls delay traffic and create sizeable additional expenses for the cleaning and the maintenance of the runways. On a broader scale, it is possible to prevent large agricultural areas from being destroyed by hail.
A combination of programmed actions can create clear and sunny skies for important outdoor events in periods of bad or unpredictable weather. This may be valuable for social and sporting events, open air festivals, air shows, etc. Source: www.coresor.com/waterandweather/clearskymanager.html
- space required for assembly and installation of one ionic generator: 5 m x 5 m;
- ionic generator locations will be determined on site depending on landscape, local meteorological conditions and the work schedule approved;
- fencing and guarding of the ionic generator and necessary equipment locations;
- power supply: AC 200-240 V, 50/60 Hz, or DC 12-24 V; power consumption of one ionic generator: 200 Watt;
- availability of a service room for the installation of direct communication,
- feedback and ionic generator operation parameter control and monitoring hardware set;
- the area shall be within mobile communication coverage
- From Russian Theory to World Markets: Weather Modification Process through Ionization of the Atmosphere
- Clear Sky Manager historical background
- Corporate Technology Services, sprl., Brussels
- Advanced Synoptic Technologies, Ltd.
- Proposed Negative Ion Generator 2012
Australian Rain Technologies (ART)
Introducing electrically charged droplets into a naturally occurring cloud will affect the collision probabilities and hence the rate of droplet coalescence to produce raindrops, and depending on the nature of the cloud result in increased rain drop growth. This forms the basis of the ATLANT™ model.
- Initially, negative ions are generated from a corona discharge wire array
- The ions become attached to particles in the atmosphere, which later act as cloud condensation nuclei (CCN);
- The ions are conveyed to the higher atmosphere by wind, atmospheric convection and turbulence;
- The electric charges on these particles are transferred to cloud droplets; and
- The electrostatic forces on droplet interaction aid the coalescence of the cloud droplets. This results in enhanced raindrop growth rate and ultimately increasing rainfall downwind from the Atlant.
New ways to Water – Australian Rain Technologies | Video Link
- Neville Fletcher Emeritus Professor of Physics UNE, UNSW, Author The Physics of Clouds | Video Link
- Increasing freshwater through rainfall enhancement. Australian Rain Technologies | Video Link
- Field trials of an ionisation technology – World Meteorological Organization
- 2009 Statistical modelling of rainfall enhancement (ATLANT)
- Scientific Review of ATLANT
Aquiess Global Rain Project
In 1990’s, MIT’s Atmospheric Laboratory conducted field trials in non-conventional weather modification technologies.
Through further studies, atmospheric researchers developed a theory that identified macro‐scale weather chaos as ‘the key’ to influencing weather. During late 1990’s an independent research team in Australia stumbled on an ‘atmospheric mechanism’ whilst exploring origins of this theory (link). Experimental trials revealed that “small amounts of electromagnetic energy, applied intelligently,” could force change into weather, based on atmospheric sine wave patterns. This research culminated in the development of an atmospheric resonance technology, represented by Aquiess International (aquiess).
Electromagnetic wave forms are utilized to deliver signals toward a target weather system, that may be as remote as beyond the visible horizon. Proprietary technologies which draw upon data from locally applied hardware and software as well as disparate sensors, are deployed to modify the patterns forming ‘oceanic corridors’ that deliver rain. Scientific analysis of aquiess’ results, shows what is described as ‘resonance technology’, has both a vast reach and incremental scalability.
The core technology and primary IP are protected by treaties and strict security protocols which surround the project. Source: Aquiess
Aquiess’ gentle soaking rain and micro-weather modification can assist in a range of applications:
- drought mitigation
- flood reduction
- frost avoidance
- hail mitigation
- heat wave mitigation
- wind reduction
aquiess weather modification is based on frequencies that are discoverable, code and algorithms, which can enable (an apparent) direct connectivity between programming operations and atmospheric systems. One commonly accepted analogy to this is the setting up of harmonic waves by soldiers marching on a bridge. If enough soldiers march in-time on a bridge, the bridge will oscillate and could inadvertently destroyed. If a device was produced to remotely ‘deploy’ the same harmonic frequency upon that bridge, it could be physically destroyed without the soldiers. Using this ‘resonance mechanism’ we have been able to demonstrate modification of atmospheric streams of gentle soaking rain. Souce: Aquiess: Theory
Aquiess KTN Interview, How it works | Video Link
“… in the US they are trying to modify the ionosphere