Your search found 66 records
1 Pandit, R. N. 1982. Water distribution practices on state deep tubewells in Haryana State. In Indian Water Resources Society, Workshop on Water Distribution Practices, July 2-3, 1982: Proceedings (pp. 95-111). Roorkee: Indian Water Resources Society.
(Location: IWMI-HQ Call no: 631.7.6.3 G635 IND Record No: H0170)
2 Siddiqui, A. R.; Greene, B. A. 1983. An analysis of the Deep Tubewell Irrigation and Credit Programme (DTICP) of CARE, Boro, 1982-83. Dhaka, Bangladesh: BARC. v, 90p.
(Location: IWMI-HQ Call no: 631.7.4 G584 SID Record No: H0424)
3 Johnson, S. H. III. 1984. Economic and technical operation of deep tubewells in Bangladesh. Dhaka, Bangladesh: BARC. 25p.
(Location: IWMI-HQ Call no: 631.7.6 G584 JOH Record No: H0432)
4 Ahmed, A. U. 1985. Irrigation in Bangladesh: Socio-economic aspects and policy issues. Thesis presented to the Faculty of Graduate School of Cornell University for the degree of Master of Science in Agricultural Economics. x, 143 p.
(Location: IWMI-HQ Call no: 631.7.4 G584 AHM Record No: H0529)
5 Hossain, M. I. 1981. An economic appraisal of deep tubewell irrigation and adoption pattern of certain agricultural practices for rice cultivation at Joydebpur Thana, Dhaka District in Bangladesh. Thesis submitted to the American University of Beirut for the Degree of Master of Science. xi, 94 p.
(Location: IWMI-HQ Call no: 631.7.8 G584 HOS Record No: H0534)
6 Bhuiyan, S. I. 1983. Groundwater irrigation in Bangladesh: Development at the crossroads. Paper presented as "talk-of-the-month" at the Institution of Engineers, Dhaka, Bangladesh, July 1983. 32p.
(Location: IWMI-HQ Call no: P 614 Record No: H0467)
Groundwater represents a vitally important resource for Bangladesh for its irrigation development. Great efforts are now underway to increase irrigated acreage by employing a mix of three major types of tubewell systems--deep, shallow and hand tubewells. This paper attempts to analyze the past trends of development of groundwater irrigation as well as a number of relevant policy issues to the groundwater development for irrigation, such as the gap between the potential and actual use of the capacity of the different tubewell systems; The rate of groundwater withdrawal that can be sustained on a long term basis; The recently adopted "privatization" policy of the government ; And the choice of scale in the promotion of the different types of tube well systems. Finally, a number of areas with problems are identified and immediate actions needed to solve these problems are understood.
7 Mirjahan, M. 1986. Evaluation of deep tubewell irrigation systems. In Bangladesh Agricultural Research Council and Winrock International Institute for Agricultural Development, Methodologies to evaluate the performance of irrigation systems (pp. 169-186). Dhaka, Bangladesh: BARC and Winrock International.
(Location: IWMI-HQ Call no: 631.7.8 G584 BAN Record No: H01682)
The paper describes a field-oriented evaluation of the performance of eleven deep tubewell (DTW) based irrigation systems. In addition, the study served as a basis for developing a model that can be used in predicting the impact of various interventions (i.e., improvement of earth channels, lining of canals, upgrading on-farm water management practices, increase in pumping hours, etc.) on command area expansion. The methodology followed included intensive field data collection in five DTW command areas in Dhamrai (near Dhaka) and six DTW command areas in Thakurgaon (in northwest Bangladesh). Performance parameters utilized included conveyance, application, overall irrigation, unit, and pumping plant efficiencies. The impact of each of the interventions considered was then determined by comparing the predicted command under the modified system with that under the existing conditions. This, in turn, provides the necessary information for cost effectiveness analysis. The analysis indicates that DTW command areas could be increased significantly through measures including improvement of main and field channels, improvement of plot channels, better on-farm water management, land-levelling, and longer operating hours.
8 Baset, M. 1986. System performance: A case study of a deep tubewell under the Irrigation Management Programme (IMP). In Bangladesh Agricultural Research Council and Winrock International Institute for Agricultural Development, Methodologies to evaluate the performance of irrigation systems (pp. 271-279). Dhaka, Bangladesh: BARC and Winrock International.
(Location: IWMI-HQ Call no: 631.7.8 G584 BAN Record No: H01696)
The paper first explains the work of the Irrigation Management Programme (IMP) that was established to improve the performance of irrigation systems. Then the author provides a case study evaluation of the performance of a particular IMP irrigation system based on the criteria the IMP program has established to assess the performance of an irrigation system. The author concludes that a system's performance largely depends on how the first two phases of planning and implementation are carried out. In addition, he suggests that a further key to improved performance for any irrigation system lies in its leadership and proposes that efforts be made to train and motivate farmers to foster good leadership.
9 Herath, H. M. G.; Nagendran, A. 1984. A present social cost analysis of groundwater technologies in the Mulankavil tube well scheme. Sri Lanka Journal of Agricultural Sciences, 21:92-107.
(Location: IWMI-HQ Call no: P 1425 Record No: H0497)
10 Johnson, S. H. III. 1986. Economic, social and technical considerations determining investments in groundwater in Bangladesh. In International Water Resources Association, Water resources for rural areas and their communities: Proceedings of the 5th World Congress on Water Resources, 9-15 June 1985, Brussels, Belgium. Brussels, Belgium: IWRA. pp.893-902.
(Location: IWMI-India Call no: 631.7.8 G584 JOH Record No: H0812)
With a total land area the size of the state of Illinois and a population exceeding 90 million, Bangladesh has one of the highest man-land ratios in the world. Blessed with vast river systems but having such a flat topography that large-scale reservoir and gravity surface irrigation systems are not feasible, Bangladesh has been forced to turn to groundwater as a source for dry season irrigation water. Initial investments were in low-lift pumps but now the Government of Bangladesh (GOB) is encouraging investment in hand pumps, shallow tubewells and deep tubewells as sources for additional water for irrigation. However, to date utilization rates have been far below those predicted by national planners. The purpose of this paper is to analyze the economics of alternative groundwater extraction devices in Bangladesh and to use their results to explain present low utilization rates. Using recent data, the analysis examines economic, social and technical characteristics of the alternative technologies and explains why shallow tubewells are to be encouraged over deep tubewells. Based on these results, suggestions for improving utilization rates are presented.
11 Davies, R. L. 1984. Construction of pilot project distribution systems in IDA Deep Tubewell Project II. Dhaka, Bangladesh: BARC. In Bangladesh Agricultural Research Council, Improved distribution system for minor irrigation in Bangladesh: Proceedings of a workshop, Dhaka, 8-9 July 1984 (pp. 92-93). Dhaka: BARC.
(Location: IWMI-HQ Call no: 631.7.1 G584 BAN Record No: H01461)
12 Miah, M. M. 1984. Improvement of deep tubewell irrigation project performance in Bangladesh. Dhaka, Bangladesh: BARC. In Bangladesh Agricultural Research Council, Improved distribution system for minor irrigation in Bangladesh: Proceedings of a workshop, Dhaka, 8-9 July 1984 (pp. 118-125). Dhaka: BARC.
(Location: IWMI-HQ Call no: 631.7.1 G584 BAN Record No: H01465)
13 Timm, R. W. 1979. Command area of irrigation units. ADAB News, 6(10):11-12.
(Location: IWMI-HQ Call no: 631.7.6 G584 BON Record No: H01660)
14 East Consult (P) Ltd. 1985. A comparative study on underground source vs. surface source of water for irrigation systems: Final report. Bhadra, Nepal: East Consult. 86 p.
(Location: IWMI-HQ Call no: 631.7.6 G726 EAS Record No: H01834)
15 Moya, T. B.; Murray-Rust, H. 1985. Another white elephant (?): An understanding of the problems and prospects. Paper presented at the Guimba Cropping Systems Research Workshop, Cabanatuan City, 22-23 May 1985. 19p.
(Location: IWMI-HQ Call no: P 557 Record No: H01978)
16 Smith, P. 1987. Constraints on deep tubewell irrigation in three districts of Bangladesh. Irrigation and Drainage Systems, 1(3):277-286.
(Location: IWMI-HQ Call no: PER Record No: H02913)
17 Bantilan, L. 1978. The economics of the San Manuel Groundwater Irrigation Pilot Project. In IRRI, Progress reports of on-going projects - Department of Irrigation & Water Management, presented to Cornell-Rutgers-PCARR Workshop, 11-13 January 1978. IRRI, Irrigation and Water Management Department: Los Banos, Laguna, Philippines. 6 p.
(Location: IWMI-HQ Call no: 631.7.8 G000 IRR Record No: H03511)
(Location: IWMI-HQ Call no: 631.7.4 G584 MUL Record No: H03294)
19 Mandal, M. A. S. 1986. Changes in irrigation schemes: Findings from a follow-up survey in Ghatail-Kalihati areas of Tangail district. In Multidisciplinary Research Team, Bangladesh Agricultural University, Water market in Bangladesh: Inefficient and inequitable? Mymensingh, Bangladesh: Bangladesh Agricultural University. pp.13-19.
(Location: IWMI-HQ Call no: 631.7.4 G584 MUL Record No: H03456)
20 Mandal, M. A. S. 1986. Observations on some Grameen Bank Irrigation Schemes: Get ahead collectively. In Multidisciplinary Research Team, Bangladesh Agricultural University, Water market in Bangladesh: Inefficient and inequitable? Mymensingh, Bangladesh: Bangladesh Agricultural University. pp.196-202.
(Location: IWMI-HQ Call no: 631.7.4 G584 MUL Record No: H03471)
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