| Type of Material: | Thesis |
| Title: | Water vapour transport through tropical tropopause layer and cirrus cloud variability over Indian summer monsoon region |
| Researcher: | Sivan, C |
| Guide: | Singh, Shailendra Narayan |
| Department: | Mechanical Engineering |
| Publisher: | Indian Institute of Technology, Kharagpur |
| Place: | Kharagpur |
| Year: | 2024 |
| Language: | English |
| Subject: | Mechanical Engineering | Cirrus clouds | Forecasting model | Geosciences | Physical Sciences | Stratosphere-troposphere interaction | TRACZILLA Lagrangian trajectory model | Tropopause | Mechanical engineering | Physical and Basic Sciences |
| Dissertation/Thesis Note: | PhD; Mechanical Engineering, Indian Institute of Technology, Kharagpur, Kharagpur; 2024; 18DR0082 |
| Fulltext: | Shodhganga |
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| 005 | 2024-10-09 10:37:252024-10-09 10:39:40 | |
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| 100 | __ | |aSivan, C|aMahato, Mintu Kumar|eResearcher|eResearcher |
| 110 | __ | |bIndian Institute of Technology, Kharagpur|aMechanical Engineering|0U-0573|ein|0U-0253|ein|dCochin|dKharagpur|bCochin University of Science & Technology, Cochin|aDepartment of Marine Science |
| 245 | __ | |aWater vapour transport through tropical tropopause layer and cirrus cloud variability over Indian summer monsoon region|aThermo-hydraulic performance study of multi-pass jet plate solar air heater |
| 260 | __ | |aKharagpur|bIndian Institute of Technology, Kharagpur|c2024|bCochin University of Science & Technology, Cochin|aCochin|c2023 |
| 300 | __ | |axviii,219|dDVD |
| 502 | __ | |bPhD|cMechanical Engineering, Indian Institute of Technology, Kharagpur, Kharagpur|d2024|cDepartment of Marine Science, Cochin University of Science & Technology, Cochin, Cochin|d2023|o18DR0082|bPhD |
| 518 | __ | |oDate of Notification|d2024-09-30|oDate of Award|d2024 |
| 518 | __ | |d2018|oDate of Registration |
| 520 | __ | |aClimate change is a matter of utmost concern in today s world. Extensive research has demonstrated that climate change affects the entire ecosystem of our planet, including the crucial water cycle. While carbon dioxide and methane are commonly identified as the primary culprits of global warming, it is important to recognise that water vapour is the most prevalent greenhouse gas in the atmosphere. In fact, water vapour in the Tropical tropopause layer (TTL) plays a pivotal role in climate feedback due to its exceptional ability to trap heat. The TTL, situated between the troposphere and the stratosphere, serves as a critical layer for regulating the transport of heat, moisture, and pollutants. Changes occurring in the tropical tropopause, such as variations in its height, temperature, and composition, can significantly impact Earth s climate and contribute to global climate change. Therefore, comprehending the dynamics of the tropical tropopause is crucial for accurately predicting weather patterns, underst |
| 650 | __ | |2UGC|aMechanical engineering|aEnvironmental Sciences|2UGC |
| 650 | __ | |aEngineering and Technology|2AIU|aPhysical and Basic Sciences|2AIU |
| 653 | __ | |aMechanical Engineering|aAtmospheric Science |
| 653 | __ | |aCirrus clouds |
| 653 | __ | |aForecasting model |
| 653 | __ | |aGeosciences |
| 653 | __ | |aPhysical Sciences |
| 653 | __ | |aStratosphere-troposphere interaction |
| 653 | __ | |aTRACZILLA Lagrangian trajectory model |
| 653 | __ | |aTropopause |
| 700 | __ | |aSingh, Shailendra Narayan|eGuide|aSatheesan, K|eGuide |
| 856 | __ | |uhttp://shodhganga.inflibnet.ac.in/handle/10603/556449|yShodhganga |
| 905 | __ | |anotification|afromsg |
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