Your search found 9 records
1 Ahmed, F.; Thompson, P.; Nishat, A. 1988. Post project appraisal of a major flood control, drainage and irrigation project. In Proceedings of the International Conference on Irrigation System Evaluation and Water Management, Wuhan, China, 12-16 September 1988: Vols.1 & 2. Wuhan, China: Wuhan University of Hydraulic and Electrical Engineering. pp.431-443.
(Location: IWMI-HQ Call no: 631.7.8 G000 PRO Record No: H06688)
2 Ahmed, F.. 1997. Coastal water supply in Bangladesh. In Pickford, J.; House, S.; Miles, D.; Ockelford, J.; Parr, J.; Saywell, D.; Shaw, R.; Skinner, B.; Smout, I.; Stear, R. (Eds.), Reaching the unreached - Challenges for the 21st century: Selected papers of the 22nd WEDC International Conference, New Delhi, India, 1996. London, UK; Leicestershire, UK: IT Publications; WEDC. pp.81-84.
Water supply ; Water quality ; Water pollution ; Shallow tube wells ; Infiltration ; Rain ; Water harvesting / Bangladesh
(Location: IWMI-HQ Call no: 628.1 G000 PIC Record No: H025819)
3 Jalil, M. A.; Ahmed, F.. 2001. Development of an activated alumina based household arsenic removal unit. In Ahmed, M. F.; Ali, M. A.; Adeel, Z. (Eds.), Technologies for arsenic removal from drinking water: A compilation of papers presented at the International Workshop on Technologies for Arsenic Removal from Drinking Water organized by Bangladesh University of Engineering and Technology (BUET), Dhaka, Bangladesh and The United Nations University (UNU), Tokyo, Japan. Dhaka, Bangladesh; Tokyo, Japan: Bangladesh University of Engineering and Technology; UNU. pp.131-145.
Water quality ; Water pollution ; Pollution control ; Technology ; Households ; Tube wells ; Groundwater ; Precipitation ; Filtration ; Sedimentation ; Performance evaluation / Bangladesh
(Location: IWMI-HQ Call no: 628.1 G584 AHM Record No: H029465)
4 Ahmed, F.. 2002. Sustainable management of groundwater in the drylands of Pakistan. In Pakistan Water Partnership (PWP). Second South Asia Water Forum, 14-16 December 2002, Islamabad, Pakistan. Proceedings, vol.1. Islamabad, Pakistan: Pakistan Water Partnership (PWP). pp.93-101.
(Location: IWMI HQ Call no: 333.91 G570 PAK Record No: H034129)
5 Ahmed, F.. 2004. Practices of poverty measurement and poverty profile of Bangladesh. Manila, Philippines: ADB. 38p. (ERD working paper no.54)
(Location: IWMI-HQ Call no: 339.46 G584 AHM Record No: H038367)
6 Saha, S. K.; Naznin, S.; Ahmed, F.. 2006. A household based safe water intervention programme for slum area in Bangladesh. Asian Journal of Water, Environment and Pollution, 3(1):21-25.
Drinking water ; Water pollution ; Water quality ; Public health ; Risks / Bangladesh / Nirala Slum Area
(Location: IWMI-HQ Call no: PER Record No: H038451)
(0.17 MB)
7 du Plessis, A.; Harmse, T.; Ahmed, F.. 2015. Predicting water quality associated with land cover change in the Grootdraai Dam catchment, South Africa. Water International, 40(4):647-663. (Special issue on 40th anniversary) [doi: https://doi.org/10.1080/02508060.2015.1067752]
Water quality ; Standards ; Guidelines ; Forecasting ; Models ; Dams ; Catchment areas ; Rivers ; Land cover change ; Urban areas ; Forestry ; Cultivation ; Mining ; Hydrological factors ; Economic aspects ; Environmental impact / South Africa / Grootdraai Dam Catchment / Vaal River
(Location: IWMI HQ Call no: e-copy only Record No: H047444)
(0.70 MB)
The Grootdraai Dam catchment forms part of the Vaal River system, which is deemed to be the ‘workhorse’ of South Africa as it is located within the economic heart of the country. The status of water quality within the catchment is an important characteristic that needs to be investigated extensively due to its importance to the country’s future economic growth. Intricate relationships between land cover and specific water quality parameters were quantified and unique model equations were formulated to predict water quality in the region. Urban and mining developments should be re-evaluated due to the accompanied significant hydrological consequences.
8 Oke, A.; Traore, K.; Nati-Bama, A. D.; Igbadun, H.; Ahmed, B.; Ahmed, F.; Zwart, Sander. 2022. Small-scale irrigation and water management technologies for African agricultural transformation. Colombo, Sri Lanka: International Water Management Institute (IWMI). 166p. (Also in French) [doi: https://doi.org/10.5337/2022.212]
Small-scale irrigation ; Water management ; Technology ; Agricultural transformation ; Smallholders ; Farmer-led irrigation ; Land resources ; Water resources ; Water supply ; Pumping ; Shallow water ; Groundwater ; Tube wells ; Runoff water ; Water harvesting ; Ponds ; Embankments ; Dams ; Conveyance structures ; Pipes ; Irrigation methods ; Surface irrigation ; Basin irrigation ; Border irrigation ; Furrow irrigation ; Sprinkler irrigation ; Drip irrigation ; Irrigation systems ; Irrigation scheduling ; Wetting front ; Soil water content ; Sensors ; Contour cultivation ; Tillage ; Land levelling ; Soil moisture ; Moisture conservation ; Water conservation ; Techniques ; Crop production ; Water requirements ; Water use efficiency ; Irrigation equipment ; Maintenance ; Irrigation efficiency ; Solar energy ; Cost analysis ; Investment ; Business models ; Capacity development ; Training materials ; Learning activities / Africa
(Location: IWMI HQ Call no: e-copy only Record No: H051446)
(7.73 MB)
9 Oke, A.; Traore, K.; Nati-Bama, A. D.; Igbadun, H.; Ahmed, B.; Ahmed, F.; Zwart, Sander. 2022. Technologies d’irrigation à petite échelle et de gestion de l’eau pour la transformation agricole Africaine. In French. [Small-scale irrigation and water management technologies for African agricultural transformation]. Colombo, Sri Lanka: International Water Management Institute (IWMI). 179p. (Also in English) [doi: https://doi.org/10.5337/2022.213]
Small-scale irrigation ; Water management ; Technology ; Agricultural transformation ; Smallholders ; Farmer-led irrigation ; Land resources ; Water resources ; Water supply ; Pumping ; Shallow water ; Groundwater ; Tube wells ; Runoff water ; Water harvesting ; Ponds ; Embankments ; Dams ; Conveyance structures ; Pipes ; Irrigation methods ; Surface irrigation ; Basin irrigation ; Border irrigation ; Furrow irrigation ; Sprinkler irrigation ; Drip irrigation ; Irrigation systems ; Irrigation scheduling ; Wetting front ; Soil water content ; Sensors ; Contour cultivation ; Tillage ; Land levelling ; Soil moisture ; Moisture conservation ; Water conservation ; Techniques ; Crop production ; Water requirements ; Water use efficiency ; Irrigation equipment ; Maintenance ; Irrigation efficiency ; Solar energy ; Cost analysis ; Investment ; Business models ; Capacity development ; Training materials ; Learning activities / Africa
(Location: IWMI HQ Call no: e-copy only Record No: H051447)
(7.50 MB)
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