India is one of the very few countries in the world endowed with substantial land and water resources. Being a country with predominantly monsoon climate, the rainfall is erratic, unevenly distributed in space, time and hence droughts in some parts/seasons and floods in some other parts/seasons frequently occur. Sometimes, both of them also occur simultaneously. In order to reduce the adverse impacts of floods and droughts, intra-basin surface/subsurface water management followed by inter-basin subsurface & surface water transfer is proposed to ensure water availability within the basin first, followed by transfer of basin excess water, preferably to the adjacent basin (s) within the region -having water storage capability during the regional floods, purely on a short term basis. In the present study, a sub-catchment of Subarnarekha Basin has been considered as the study area. This study focuses on the proposal of Intra-basin/Inter-basin subsurface/surface storage/transfer during a portion of the flood period. This is accomplished after creating some Intra-basin storage, by analyzing 13 years of daily discharge data -starting from 2004, for the Jamsholaghat Gauge-Discharge (G-D) site in the basin. Thus, all the four purposes -in their order of preference, viz., 1) moderation of basin flood peak; 2) creation of intra-basin surface/subsurface storage; 3) groundwater recharge and 4) short term mitigation of water scarcity in the neighboring basin (s), are expected to be achieved through this proposal.
| Published in | American Journal of Water Science and Engineering (Volume 6, Issue 3) |
| DOI | 10.11648/j.ajwse.20200603.12 |
| Page(s) | 89-103 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2020. Published by Science Publishing Group |
Interlinking of Rivers, Inter-basin Transfer, Subsurface Transfer, Water Harvesting Structures
| [1] | Bandyopadhyaya J. and Perveen S. (2003). The Interlinking of Indian Rivers: Proceedings of the Seminar on Interlinking Indian Rivers: Bane or Boon?, Indian Institute of Social Welfare & Business Management (IISWBM), Kolkata, West Bengal, India, June, School of Oriental and African Studies (SOAS) Water Issues Study Group, Occasional, 60. |
| [2] | Rao K. L. (1975). India’s Water Wealth – Its Assessment, Uses and Projections, Orient Longman Ltd., Hyderabad, formerly in Andhra Pradesh, India. |
| [3] | Integrated Water Resources Development- A Plan for Action (1999). Report of the National Commission for Integrated Water Resources Development Plan, Ministry of Water Resources, Government of India (GoI), New Delhi, India, Sep. |
| [4] | IWRS (1996). Theme paper on Inter-basin transfers of Water for National Development: Problems and Perspectives, Indian Water Resources Society, Indian Institute of Technology (IIT) Roorkee, Uttarakhand, India. |
| [5] | Rao V. L. N., Desai V. R. and Kumar N. (2007). Inter-basin Water Transfer Proposal for Flood Moderation, 12th National Water Convention, National Water Development Agency (NWDA) and Government of Puducherry, Puducherry, India, November, 218-238. |
| [6] | Bhaduri A. and Barbier E. B. (2011). Water allocation between states in inter-basin transfer in India, Intl. J. River Basin Management, 9 (2), 117–127. |
| [7] | Bonkile S. D. and Pajgade P. S. (2012). Art of intra and Inter-basin water transfer, J. of Engg. Research and Studies, 3 (3), 22-27. |
| [8] | George M., Korgaonkar P. D. and Geetha K. (2014). Interlinking of river basins -a review, Intl. J. of Civil, Structural, Environmental and Infra. Engg. Research and Development, 4 (2), 33-44. |
| [9] | Gupta J. and Van der Zaag P. (2008). Inter-basin water transfers and integrated water resources management: Where engineering, science and politics interlock, J. of Physics and Chemistry of the Earth, 33, 28–40. |
| [10] | Hamaideh A., Hoetzl H. and Raggad M. A. (2017). Water harvesting: Groundwater storage reservoir in Wadi Ishe, Jordan. Scientific Research and Essays, 12 (2), 9-23. |
| [11] | Mahabaleshwara H. and Nagabhushana H. M. (2014). Inter-basin water transfers in India – a solution to hydrological extremities, Intl. J. of Research in Engineering and Technology, 3 (3), ISSN: 2321-7308. |
| [12] | Pelkey N. (2003). Linking Rivers, The Hindu Survey of the Environment, Chennai, India. |
| [13] | National Water Development Agency [NWDA] (2003). Inter-basin transfer proposals, New Delhi, India. |
| [14] | Verdhen A. (2016). Intra and Inter-basin Linking of Rivers in Water Resources Management, J. of Scientific and Industrial Research, 75, 150-155. |
| [15] | Vyas S. K., Sharma G, Mathur Y. P. and Chandwani V. (2016). Interlinking feasibility of five river basins of Rajasthan in India, Engineering and Material Sciences, 8, 83-86. |
| [16] | http://www.cwc.nic.in/welcome.htm. |
| [17] | http://www.indiawris.nrsc.gov.in/HydroObservationStationApp.html. |
| [18] | https://www.nrcs.usda.gov/wps/portal/nrcs/detail/soils/survey/office/ssr10/tr/?cid=nrcs144p2_074846. |
| [19] | Manual on Artificial recharge of ground water (2007). Central Ground Water Board, Ministry of Water Resources, Govt. of India, Faridabad, Haryana, India. |
| [20] | Todd D. K. and Mays L. W. (2011), Ground Water Hydrology, 3rd Ed., Wiley India, New Delhi, India. |
| [21] | IS: 4880 (1976). Code of practice for design of tunnels conveying water, Part III: Hydraulic Design, Bureau of Indian Standards (BIS), New Delhi, India. |
APA Style
Sanjay Kumar Ray, Venkappayya Rangappayya Desai. (2020). Flood Moderation & Water Management Study in a Non-Himalayan Indian Basin. American Journal of Water Science and Engineering, 6(3), 89-103. https://doi.org/10.11648/j.ajwse.20200603.12
ACS Style
Sanjay Kumar Ray; Venkappayya Rangappayya Desai. Flood Moderation & Water Management Study in a Non-Himalayan Indian Basin. Am. J. Water Sci. Eng. 2020, 6(3), 89-103. doi: 10.11648/j.ajwse.20200603.12
AMA Style
Sanjay Kumar Ray, Venkappayya Rangappayya Desai. Flood Moderation & Water Management Study in a Non-Himalayan Indian Basin. Am J Water Sci Eng. 2020;6(3):89-103. doi: 10.11648/j.ajwse.20200603.12
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.ajwse.20200603.12,
author = {Sanjay Kumar Ray and Venkappayya Rangappayya Desai},
title = {Flood Moderation & Water Management Study in a Non-Himalayan Indian Basin},
journal = {American Journal of Water Science and Engineering},
volume = {6},
number = {3},
pages = {89-103},
doi = {10.11648/j.ajwse.20200603.12},
url = {https://doi.org/10.11648/j.ajwse.20200603.12},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajwse.20200603.12},
abstract = {India is one of the very few countries in the world endowed with substantial land and water resources. Being a country with predominantly monsoon climate, the rainfall is erratic, unevenly distributed in space, time and hence droughts in some parts/seasons and floods in some other parts/seasons frequently occur. Sometimes, both of them also occur simultaneously. In order to reduce the adverse impacts of floods and droughts, intra-basin surface/subsurface water management followed by inter-basin subsurface & surface water transfer is proposed to ensure water availability within the basin first, followed by transfer of basin excess water, preferably to the adjacent basin (s) within the region -having water storage capability during the regional floods, purely on a short term basis. In the present study, a sub-catchment of Subarnarekha Basin has been considered as the study area. This study focuses on the proposal of Intra-basin/Inter-basin subsurface/surface storage/transfer during a portion of the flood period. This is accomplished after creating some Intra-basin storage, by analyzing 13 years of daily discharge data -starting from 2004, for the Jamsholaghat Gauge-Discharge (G-D) site in the basin. Thus, all the four purposes -in their order of preference, viz., 1) moderation of basin flood peak; 2) creation of intra-basin surface/subsurface storage; 3) groundwater recharge and 4) short term mitigation of water scarcity in the neighboring basin (s), are expected to be achieved through this proposal.},
year = {2020}
}
TY - JOUR T1 - Flood Moderation & Water Management Study in a Non-Himalayan Indian Basin AU - Sanjay Kumar Ray AU - Venkappayya Rangappayya Desai Y1 - 2020/10/13 PY - 2020 N1 - https://doi.org/10.11648/j.ajwse.20200603.12 DO - 10.11648/j.ajwse.20200603.12 T2 - American Journal of Water Science and Engineering JF - American Journal of Water Science and Engineering JO - American Journal of Water Science and Engineering SP - 89 EP - 103 PB - Science Publishing Group SN - 2575-1875 UR - https://doi.org/10.11648/j.ajwse.20200603.12 AB - India is one of the very few countries in the world endowed with substantial land and water resources. Being a country with predominantly monsoon climate, the rainfall is erratic, unevenly distributed in space, time and hence droughts in some parts/seasons and floods in some other parts/seasons frequently occur. Sometimes, both of them also occur simultaneously. In order to reduce the adverse impacts of floods and droughts, intra-basin surface/subsurface water management followed by inter-basin subsurface & surface water transfer is proposed to ensure water availability within the basin first, followed by transfer of basin excess water, preferably to the adjacent basin (s) within the region -having water storage capability during the regional floods, purely on a short term basis. In the present study, a sub-catchment of Subarnarekha Basin has been considered as the study area. This study focuses on the proposal of Intra-basin/Inter-basin subsurface/surface storage/transfer during a portion of the flood period. This is accomplished after creating some Intra-basin storage, by analyzing 13 years of daily discharge data -starting from 2004, for the Jamsholaghat Gauge-Discharge (G-D) site in the basin. Thus, all the four purposes -in their order of preference, viz., 1) moderation of basin flood peak; 2) creation of intra-basin surface/subsurface storage; 3) groundwater recharge and 4) short term mitigation of water scarcity in the neighboring basin (s), are expected to be achieved through this proposal. VL - 6 IS - 3 ER -
Information
Email: