![]() ![]() Got optimal return on investment through risk-managed modernization to Google Cloud. Afterall, mainframe modernization can create up to a 60% reduction in operational cost, a 70% improvement in the go-to-market cycle, and a 50% faster integration with the business ecosystem, as our work with clients have shown. Mainframe modernization to hyperscaler public cloud platforms, such as Google Cloud, leads to higher productivity, business sustainability, and faster time to market. The services that help enterprises transition from on-premises mainframe hardware and operations, move software and data from mainframes to cloud, and migrate to new technologies are in high demand. This report reveals that data access, business agility, and cost reduction are top drivers for mainframe modernization. However, despite many claims no quantifiable results have been produced in attempts to minimize damaging hail.Scale quickly and securely leveraging Google Cloud’s native application services.īusinesses are looking to modernize their legacy mainframes to meet challenges such as slow integration with new technologies, inflexibility to launch experimental workloads, and rising cost of ownership. In theory, hail damage can be reduced by 25% through cloud seeding. Hail rely on cloud seeding using ice nucleants, or with silver oxide. Most methods of limiting the development of nimbostratus) and encourage ice-crystal growth. ![]() altostratus or cirrostratus) fall into a supercooled water 'spender' cloud (e.g. Natural seeding may be significant in cases where ice crystals from a high 'releaser' cloud (e.g. common salt or fine water droplets, may also be used to encourage coalescence. Latent heat would add buoyancy, strengthen the updrafts, ensure more low-level convergence, and ultimately cause explosive growth of properly selected cumuli. This strategy of dynamic seeding assumed that the additional Seeding of tropical cumuli sought to exploit the latent heat released by freezing as well. Dry ice introduced (at -80☌) from the air into cloud lowers the air temperature so that (particularly at temperatures below -40☌) some of the supercooled water droplets are converted into ice crystals which then grow by collisions with further droplets For the cold rain process, silver-iodide (introduced from the air or ground) can be used as a nuclei because its structure is very similar to ice crystals. To encourage the warm rain process, calcium chloride is usually used to provide the nucleus for raindrop formation. L they form a drop large and heavy enough to fall. In these clouds, raindrops form around a hygroscopic nuclei, a particle that attracts water such as salt or dust. Cloud seeding is thought to increase the number of these nuclei available to take greater advantage of the moisture in the cloud and form raindrops that otherwise would not have formed.Īnother process, the warm rain process, usually involves clouds in tropical regions that never reach the freezing point. The ice crystals in the dry ice had provided a nucleus around which droplets of water could form inside the chamber. Water vapor in the chamber formed a cloud around the dry ice. ![]() During one experiment, Schaefer thought the chamber was too warm and placed dry ice inside to cool it. Schaefer, working at the General Electric Laboratory in New York, was involved with research to create artificial clouds in a chilled chamber. When the droplet or snow flake, becomes large enough, it falls as snow or rain.Ĭloudseeding got its start in 1946 when Dr. The ice crystals provide a nucleus (tiny solid or liquid particles, suspended in the atmosphere) around which more water droplets can attach, increasing the size of the droplet, or in colder air snow flakes. Natural rainfall occurs when supercooled cold water contacts particles of dust, salt or sand forming ice crystals. Supercooled water in an attempt to cause them to dissipate, modify their structure, or alter the intensity of associated phenomena, such as wind speed or hail. Cloudseeding is the technique of inducing rain from a cloud, usually by dropping suitable particles into clouds containing ![]()
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