dorsal/arxiv
View Schema11-Year Warm Cloud Modification Experiment in Maharashtra State, India
| Authors | A. S. R. Murty et. al |
|---|---|
| Categories | |
| ArXiv ID | physics/9812046 |
| URL | https://arxiv.org/abs/physics/9812046 |
Abstract
A warm cloud modification experiment was carried out in an area of 4800 Sq.Km in the Pune region,India, during the 11-summer monsoon (June-September) seasons (1973-74, 1976, 1979-86). A double-area cross-over design with area randomization was adopted and an instrumented aircraft was used for seeding and cloud physical measurements. Finely pulverised salt (sodium chloride) particles were released into the monsoon clouds (cumulus and stratocumulus) during aircraft penetrations into the clouds at a height of 200-300 m above the cloud-base. The warm cloud responses to salt seeding are found to be critically dependent on the cloud physical characteristics e.g., vertical thickness and liquid water content. Clouds with vertical thickness greater than 1 km, LWC greater than 0.5 gm/cubic m when seeded with salt particles (modal diameter 10 micro m, concentration 1 per litre of cloud air) produced increase in rainfall of 24 per cent significant at 4 per cent level. Shallow clouds (vertical thickness less than 1 km, LWC less than 0.5 gm/cubic m) when seeded showed tendency for dissipation. The cloud physical observations made in not-seeded (control) and seeded (target) clouds have provided some useful evidence to test the applicability of the warm cloud modification hypothesis. The results of the cloud model computations suggested that moderate convergence at the cloud-base is essential for the cloud growth and development of precipitation in the real world. Hygroscopic particle seeding of warm clouds under favourable dynamical conditions (convergence at the cloud-base level) may result in the acceleration of the collision-coalescence process resulting in the enhancement of rainfall.
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"abstract": "A warm cloud modification experiment was carried out in an area of 4800 Sq.Km\nin the Pune region,India, during the 11-summer monsoon (June-September) seasons\n(1973-74, 1976, 1979-86). A double-area cross-over design with area\nrandomization was adopted and an instrumented aircraft was used for seeding and\ncloud physical measurements. Finely pulverised salt (sodium chloride) particles\nwere released into the monsoon clouds (cumulus and stratocumulus) during\naircraft penetrations into the clouds at a height of 200-300 m above the\ncloud-base. The warm cloud responses to salt seeding are found to be critically\ndependent on the cloud physical characteristics e.g., vertical thickness and\nliquid water content. Clouds with vertical thickness greater than 1 km, LWC\ngreater than 0.5 gm/cubic m when seeded with salt particles (modal diameter 10\nmicro m, concentration 1 per litre of cloud air) produced increase in rainfall\nof 24 per cent significant at 4 per cent level. Shallow clouds (vertical\nthickness less than 1 km, LWC less than 0.5 gm/cubic m) when seeded showed\ntendency for dissipation. The cloud physical observations made in not-seeded\n(control) and seeded (target) clouds have provided some useful evidence to test\nthe applicability of the warm cloud modification hypothesis. The results of the\ncloud model computations suggested that moderate convergence at the cloud-base\nis essential for the cloud growth and development of precipitation in the real\nworld. Hygroscopic particle seeding of warm clouds under favourable dynamical\nconditions (convergence at the cloud-base level) may result in the acceleration\nof the collision-coalescence process resulting in the enhancement of rainfall.",
"arxiv_id": "physics/9812046",
"authors": [
"A. S. R. Murty et. al"
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"categories": [
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"title": "11-Year Warm Cloud Modification Experiment in Maharashtra State, India",
"url": "https://arxiv.org/abs/physics/9812046"
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