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Das, Subhasish
- Aquifer Characteristics of the Intake Wells on Damodar River near Raniganj, West Bengal, India
Abstract Views :247 |
PDF Views:46
Authors
Subhasish Das
1,
Biswajit Majumder
1,
Arijit Chakraborty
1,
Bivas Mandal
1,
Pankaj Kr. Roy
1,
Asis Mazumdar
1
Affiliations
1 Law and Management, Jadavpur University, Kolkata, West Bengal, IN
1 Law and Management, Jadavpur University, Kolkata, West Bengal, IN
Source
Reason-A Technical Journal (Formerly Reason-A Technical Magazine), Vol 12 (2013), Pagination: 19-29Abstract
Since the British period the Damodar River has been the main source of water supply in Raniganj, Asansol and Durgapur area of West Bengal State in India. Afterwards since nineties, the drinking water demand was increasing rapidly with the population rise. There has been a considerable scarcity in water supply especially in summer months. Recently, to augment the water supply situation, considering future demand and population rise, a hydro-geological study has been carried out during dry period at different locations on the river bed. The observation were undertaken in and around the existing pumping area on Damodar river located in the southern part of Raniganj. This research is aimed at assessing the yield test at exploratory bored wells to find out the minimum quantity of water available to design radial collector wells at three different locations with respect to their drawdown, transmissibility and storativity. Secondly, a field method for the mechanical analysis of bore well log material of the study area was attained to determine the material size and the required artificial gravel packing. On the basis of the field study and investigations, data collection, collasion and analysis, this paper has been prepared highlighting the characteristics of the aquifer, the location of the intake wells and yield of the bed.Keywords
Damodar River, Aquifer, Bore Well, Yield Test, Drawdown, Transmissibility, Storativity, Sieve Analysis.Full Text
- A Plan for the Enhancement of Backwater for Irrigation for Sustainable Livelihood of Rural Communities at Magrahat Basin, South 24 Parganas, West Bengal
Abstract Views :368 |
PDF Views:55
Authors
Affiliations
1 School of Water Resources Engineering, Jadavpur University, Kolkata, West Bengal, IN
1 School of Water Resources Engineering, Jadavpur University, Kolkata, West Bengal, IN
Source
Reason-A Technical Journal (Formerly Reason-A Technical Magazine), Vol 11 (2012), Pagination: 29-38Abstract
Management measure for Irrigation water by tidal back-water influx is an important issue for the sustainable living of rural communities in the areas where the rainfall is insufficient for rabi crop cultivation. Tidal back-water influx is one of the sources of irrigation water in the lower gangetic planes of West Bengal, India. Based on that concept, a plan is provided for the Magrahat basin of South 24 Parganas district in West Bengal for the augmentation of irrigation facilities through excess amount of tidal back-water entry during the post-monsoon period when the salinity of water is considerably low. In the present study, twenty major canals or khals of Magarahat basin are considered. Volume of available tidal water for irrigation of rabi crops was determined from the gauge data of tidal rivers. Here an attempt has been made to delineate not only the enhancement of the economic return of the people of the Magrahat basin but also to create provision for multi-cropping (rabi crops) pattern of agriculture/horticulture facilities during the dry season for sustaining of their livelihood. Also the tidal backwater surface profiles have been suggested for all the major canals of Magrahat basin using standard step method of gradually varied flow.Keywords
Water Availability, Tidal Back-Water Influx, Gradually Varied Flow, Water Requirement of Crop, Water Distribution Management.Full Text
- Assessment of Electrical Energy Consumption of Jai Hind Jal Prakalpa 90-101 in Kolkata, India
Abstract Views :284 |
PDF Views:33
Authors
Affiliations
1 School of Water Resources Engineering, Jadavpur University, Kolkata and Assistant Engineer, Kolkata Municipal Corporation, IN
2 School of Water Resources Engineering, Jadavpur University, Kolkata, IN
1 School of Water Resources Engineering, Jadavpur University, Kolkata and Assistant Engineer, Kolkata Municipal Corporation, IN
2 School of Water Resources Engineering, Jadavpur University, Kolkata, IN
Source
Reason-A Technical Journal (Formerly Reason-A Technical Magazine), Vol 15 (2016), Pagination: 90-101Abstract
Energy plays a key role in all organizations, particularly those that are energy intensive. A comprehensive study to establish and investigate, energy balances for a specific plant unit has been conducted. In this study electrical energy assessment of a water treatment plant has been successfully completed. Jai Hind Jal Prakalpa water treatment plant located at Dhapa, Kolkata in India was selected for this study. From the energy point of view there is a financial loss in the monthly electricity bill of the plant and this may be rectified if suitable steps are taken. It is observed that by proper utilization of electricity, approximately 11.5% of electricity charges may be saved which amount approximately rupees four lakh per month.Keywords
Water Treatment Plant, Energy Consumption, Energy Conservation.Full Text
References
- Wu, M. and Chu, W., System Analysis of Water Treatment Plant in Taiwan, Journal of Water Resources Planning Management, Vol. 117, Issue 5, pp. 536-548, 1991.
- Satchell, T.T., Up gradation a small waste water treatment plant for the 21st century, World Environment Water Resources Congress, 2006.
- Das, S., Study of pipeline network system and temporal decay of chlorine for the water treatment plant at Dakshin Raipur, West Bengal, M.E. Thesis, School of Water Resources Engineering, Jadavpur University, Kolkata, India, 2006.
- Das, S., Roy, P.K. and Mazumdar, A., Analysis of pipe flow and headloss of a modeled network based on EPANET in a water treatment plant at Raipur, West Bengal, Journal of the Institution of Public Health Engineers, India, No. 3, pp. 21-28, 2008.
- Tansel, B. and Sosnikhina, I., Cost Comparison of Membrane Treatment and Concentrate Management Practices at Drinking Water Treatment Plants in Florida, World Environment Water Resources Congress, pp. 1-7, 2009.
- Bureau of energy efficiency, General Aspects of Energy Management and Energy Audit, National Productivity Council, New Delhi, 2015.
- Guide books for National Certification Examination for Energy Managers and Energy Auditors - (a) Energy Efficiency in Electrical Utilities, (b) Energy Efficiency in Thermal Utilities, (c) Energy Performance Assessment for Equipment and Utility Systems and (d) General Aspects of Energy Management and Energy Audit., Bureau of Energy Efficiency, National Productivity Council, Chennai.
- Rathod, D., Khandare, R. and Pandey, A.K., Electrical Energy Audit (A Case Study of Tobbaco Industry), International Journal of Engineering and Applied Sciences, Vol. 2, No. 3, pp. 9-18, 2013.
- Mukherjee, B., Pipeline design and analysis of distribution network of Dhapa water treatment plant, KMC by EPANET and HAMMER software, M.E. Thesis, School of Water Resources Engineering, Jadavpur University, Kolkata, India, 2012.
- Mukherjee, B., Das, S. and Mazumdar, A., Comparison of Pipeline Hydraulic Analysis between EPANET and HAMMER softwares, International Journal of Advances in Science and Technology, Vol. 4, No. 6, pp. 52-63, 2012.
- Das, S., Mukherjee, B. and Mazumdar, A., Analysis of Hammer Head at Increased Flow Demand in Pipe Networks: A Case Study, International Review of Mechanical Engineering, Vol. 7, No. 4, pp. 757-766, 2013.
- Sarkar, P.K., Extended Period Simulations of Pipeline Distribution Network of Garfa Boosting Station by Hammer and WaterGEMS Softwares, M.E. Thesis, School of Water Resources Engineering, Jadavpur University, Kolkata, India, 2014.
- Assessment of Water Surface of Reservoirs with Varying Time and Increasing Population in Contai of West Bengal
Abstract Views :178 |
PDF Views:38
Authors
Affiliations
1 School of Water Resources Engineering, Jadavpur University and Department of Civil Engineering, Dr. Sudhir Chandra Sur Degree Engineering College, Kolkata, West Bengal, India., IN
2 School of Water Resources Engineering, Jadavpur University, Kolkata, West Bengal, IN
1 School of Water Resources Engineering, Jadavpur University and Department of Civil Engineering, Dr. Sudhir Chandra Sur Degree Engineering College, Kolkata, West Bengal, India., IN
2 School of Water Resources Engineering, Jadavpur University, Kolkata, West Bengal, IN
Source
Reason-A Technical Journal (Formerly Reason-A Technical Magazine), Vol 18 (2019), Pagination: 36-44Abstract
Contai, a district of Purba Medinipur, has 79 natural reservoirs of minimum 0.01 hectare capacity. This water is utilised for irrigation and industrial purpose. The population of Contaihas been increased around 19% in last census decade. The decadal growth of population density in Contai is high compared to West Bengal. It had been also found that the perimeter and area of the water surface of these reservoirs were reducing gradually in last decade. Now with increasing population - irrigation and industrialisation has been taken place in Contai manifold. So withdrawal of water from the 79 existing reservoirs of Contai has been taken places in indiscriminate ways. But the recharge of reservoirs is very low since amount of rainfall in whole Purba Medinipur is quite less. In most of the season in 2019 here rainfall is less than 100 mm. From the present study it has been observed that annually the perimeter and surface area of such reservoirs are decreasing around 2.5% and 1.1% respectively. So abstraction is more than recharge of reservoirs. It's a little worried situation for Contai. If such an indiscriminate usage of water from reservoir for increasing irrigation and industrialisation has been taken place then reservoirs will become dry. Since rivers and canals in Purba Medinipur are almost saline prone so no alternative way of getting water for irrigation and industrialisation will be available. So it's high time to conserve the reservoirs of Contai. If irrigation and industrialisation are taking place by the withdrawal of groundwater then groundwater level will be diminished fast. According to Gyben Herzberg principle, for a half metre decline in groundwater level seawater encroaches into the mainland by 20 metres. So if water harvesting can be adapted to store water in reservoirs to supply water for irrigation and industrialisation then that can be bene!tted. The usage of water for various units from these reservoirs can also be limited.Keywords
Reservoir, Perimeter, Area, Irrigation, Population, Industrialization.Full Text
References
- Census India.gov.in website
- He, Z., Zhou, J., Mo, L., Qin, H., Xiao, X., Jia, B. and Wang, C., Multiobjective Reservoir Operation Optimization Using Improved Multiobjective Dynamic Programming Based on Reference Lines, IEEE Access, Vol. 7, p.103473, 2019.
- Fang,Y., Li, H., Wan, W., Zhu, S., Wang, Z., Hong, Y. and Wang, H., Assessment of Water storage Change in China’s Lake and Reservoirs over the last three decades, Remote Sensing, Vol. 11, p.1467, 2019.
- Maity, P.K., Das, S. and Das, R., Methodology for Groundwater Extraction in the Coastal Aquifers of Purba Midnapur District of West Bengal in India under the Constraint of Saline Water Intrusion, Asian Journal of Water, Environment and Pollution, Vol. 14, No. 2, pp.1-12, 2017.
- Chakraborty, S., Maity P.K, and Das, S., Investigation, Simulation, Identi!cation and Prediction of Groundwater Levels in Coastal Areas of Purba Midnapur, India, Using MODFLOW, Environment, Development and Sustainability, Vol.22, No.4, pp.3805-3837, 2020.
- Maity, P.K., Das, S. and Das, R., Remedial Measures for Saline Water Ingression in Coastal Aquifers of South West Bengal in India, MOJ Ecology & Environmental Science, Vol. 3, No.1, p.00061, 2018.
- Maity, P.K., Das, S. and Das, R., A Geochemical Investigation and Control Management of Saline Water Intrusion in the Coastal Aquifer of Purba Midnapur District in West Bengal, India, Journal of the Indian Chemical Society, Vol. 95, No.3, pp.205-210, 2018.
- Ramsundram, N. and Khanam, N., Impact of Climate Change on Reservoir In"ow Predictions: A Case Study. International Journal of Recent Technology and Engineering, Vol. 7, pp.132-135, 2018.
- Ehsani, N., Vörösmarty, C.J., Fekete, B.M. Z. and Stakhiv, E.J., Reservoir Operations under Climate Change: Storage Capacity Options to Mitigate Risk, Journal of Hydrology, Vol. 555, pp.435-446, 2017.
- Shazli, E. and Hoermann, G., Development of Storage Capacity and Morphology of the Aswan High Dam Reservoir, Hydrological Sciences Journal, Vol. 61, pp.2639-2648, 2016.
- Mao,Y., Wang, K., Liu, X. and Liu, C., 2016, Water Storage In Reservoirs Built from 1997 to 2014 Signiûcantly Altered the Calculated Evapotranspiration Trends over China, Journal of Geophysical Research, Vol. 121, pp.97-112, 2016.
- Ye, Z., Chen,Y., Shu, S., Wu, Q. and Wang, S., Analysis of Water Level Variation of Lakes and Reservoirs in Xinjiang, China Using ICES at Laser Altimetry Data (2003–2009), Plos One, Vol. 12, 2017.
- Dawood, K.A., Rashid, F.L. and Hashim, A., Reduce Evaporation Losses from Water Reservoirs, IOSR Journal ofApplied Physics, Vol. 4, No.6, pp.13-18, 2013.
- Liu, J., Yang, S., and Jiang, C., Coastal Reservoirs Strategy for Water Resource Development-A Review of Future Trend, Journal of Water Resource and Protection, Vol. 5, pp.336-342, 2013.
- Wisser, D., Frolking, S., Hagen, S. and Bierkens, M.F.P., Beyond Peak Reservoir Storage? A Global Estimate of Declining Water Storage Capacity In Large Reservoirs, Water Resources Research, Vol. 49, pp.5732-5739, 2013.
- Donagh, M.E.M., Casco, M.A. and Claps, M.C., Colonization of a Neotropical Reservoir (Córdoba, Argentina) by Ceratium Hirundinella (O. F. Müller) Bergh, International Journal of Limnology, Vol. 41, pp.291299, 2005.
- Guhathakurta, P., Khedikar, S., Menon, P., Prasad, A.K., Sable, S.T. and Advani, S.C., Observed Rainfall Variability and Changes over West Bengal State, Met Monograph No.: ESSO/IMD/HS/Rainfall Variability/ 29(2020)/53, India Meteorological Department, Ministry of Earth Sciences, Government of India, p.7.