Geo-Engineering Montage - A Little Introduction - All Images From 2011 - MIRROR AND SHARE

There are three reasons why, we believe, regulation is needed. First, in the future some geoengineering techniques may allow a single country unilaterally to affect the climate. Second, some—albeit very small scale—geoengineering testing is already underway. Third, we may need geoengineering as a "Plan B" if, in the event of the failure of "Plan A"—the reduction of greenhouse gases—we are faced with highly disruptive climate change. If we start work now it will provide the opportunity to explore fully the technological, environmental, political and regulatory issues.
http://www.parliament.the-stationery-office.co.uk/pa/cm200910/cmselect/cmscte...

This is only brief, but it has some good information.
http://www.scribd.com/doc/45712430/The-Unintended-Consequences-of-Sulfate-Aer...

The use of electrostatic or magnetic materials enables a class of photophoretic forces not found in nature. Photophoretic levitation could loft particles above the stratosphere, reducing their capacity to interfere with ozone chemistry; and, by increasing particle lifetimes, it would reduce the need for continual replenishment of the aerosol. Moreover, particles might be engineered to drift poleward enabling albedo modification to be tailored to counter polar warming while minimizing the impact on equatorial climates.

Increase in particles high in Earth's atmosphere has offset some recent climate warming (guess how they got there)...
http://www.worldweatherpost.com/2011/07/21/increase-in-particles-high-in-eart...



Photophoretic levitation of engineered aerosols for geoengineering by David W. Keith.
www.pnas.org/content/107/38/16428.full.pdf

Case Orange Scientific Study
http://www.scribd.com/doc/45712614/Belfort-Group-Case-Orange

Atmospheric Aerosol Properties and Climate Impacts
http://www.scribd.com/doc/45712460/Atmospheric-Aerosol-Properties-and-Climate...

(iii) Quiescent injection plumes
An otherwise passive (non-exhaust) injection system generally has limited turbulent energy, and mixing is controlled more decisively by local environmental conditions. If the quiescent plume is embedded within an aircraft wake, however, the turbulence created by the exhaust, and wing vortices created at the wingtips, can have a major impact on near-field mixing rates (e.g. Schumann et al. 1998). For a quiescent plume, we adopt a linear cross-sectional growth model that represents a small-scale turbulent mixing perpendicular to the plume axis (e.g. Justus & Mani 1979). Observations and theory lead to the following empirical representation for the plume volume:

rsta.royalsocietypublishing.org/content/366/1882/4007.full

2.1. Potential seeding material
An ideal ice nucleating agent for cirrus geoengineering would be one having a high effectivity (for ice nucleation) at temperatures colder than ∼−20◦C, but a very low effectivity at warmer temperatures. Bismuth tri-iodide (BiI3) had been investigated as an ice nucleant for weather modification programs but was unsuitable because its effectivity threshold was below −10◦C. However, this makes it a suitable ice nucleant for geoengineering, targeting primarily cirrus clouds and not the clouds normally targeted in cloud seeding experiments. In addition, BiI3 is non-toxic and reagent grade bismuth metal is about 1/12th the cost of silver, suggesting BiI3 would be about 1/12th the cost of AgI. Bismuth tri-iodide can be generated in aerosol form by combustion of an alcohol solution of BiI3 (solubility, 3.5 g/100 ml). A better aerosol generating system for this nucleant is pyrotechnic combustion. For this, a modest program of research and development would be required. A pressed composite mixture of BiI3, potassium perchlorate (KClO4), aluminum and gilsonite (a natural hydrocarbon) would be appropriate

2.2. Delivery mechanism
"Since commercial airliners routinely fly in the region where cold cirrus clouds exist, it is hoped that the seeding material could either be (1) dissolved or suspended in their jet fuel and later burned with the fuel to create seeding aerosol, or (2) injected into the hot engine exhaust, which should vaporize the seeding material, allowing it to condense as aerosol in the jet contrail. The objective would not be to seed specific cloud systems but rather to build up a background concentration of aerosol seeding material so that the air masses that cirrus will form in will contain the appropriate amount of seeding material to produce larger ice crystals. Since the residence time of seeding material might be on the order of 1--2 weeks, release rates of seeding material would need to account for this. With the delivery process already existing, this geoengineering approach may be less expensive than other proposed approaches".

http://iopscience.iop.org/1748-9326/4/4/045102/pdf/1748-9326_4_4_045102.pdf

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