Your search found 7 records
1 Balasubramanya, Soumya; Evans, B.; Ahmed, R.; Habib, A.; Asad, N. S. M.; Vuong, L.; Rahman, M.; Hasan, M.; Dey, D.; Camargo-Valero, M. 2016. Pump it up: making single-pit emptying safer in rural Bangladesh. Journal of Water, Sanitation and Hygiene for Development, 6(3):456-464. [doi: https://doi.org/10.2166/washdev.2016.049]
Rural areas ; Faecal sludge ; Faecal coliforms ; Sewage effluent disposal ; Sludge treatment ; Latrines ; Sanitation ; Health hazards ; Helminths ; Liquid wastes ; Public services ; State intervention ; Pumping / Bangladesh
(Location: IWMI HQ Call no: e-copy only Record No: H047856)
(0.51 MB)
Safe emptying and disposal of fecal sludge from pit latrines in rural areas has become a priority for the Government of Bangladesh. In this paper, we calculate the volume and characterize the hazards of managing sludge to identify technologies for safely emptying rural single pits. In Bhaluka subdistrict, an estimated 15,000 m3 of sludge is produced annually. Physical, chemical, and microbial analysis of samples of sludge taken from pit latrines indicate that the sludge has a high moisture content of around 90%, a C:N ration of 10:1, and a helminth presence of 41 eggs/g. In a field test of alternative emptying technologies, simple pumps such as the gulper emerged as feasible for use in rural areas, due to the liquid nature of the sludge, narrow roads, and limited incomes of rural households. The results suggest that current practices of emptying liquid sludge manually without any protective equipment poses risks to those who handle sludge, and the process needs to be semi-mechanized with immediate effect. These results are being used by the Bangladesh government to design policy for sludge management. In the near future, an organized service that safely empties single pits and transports sludge for treatment needs to be urgently designed.
2 Balasubramanya, Soumya; Evans, B.; Hardy, Richard; Ahmed, R.; Habib, A.; Asad, N. S. M.; Rahman, M.; Hasan, H.; Dey, D.; Fletcher, J.; Camargo-Valero, M. A.; Rao, Krishna Chaitanya; Fernando, Sudarshana. 2017. Towards sustainable sanitation management: Establishing the costs and willingness to pay for emptying and transporting sludge in rural districts with high rates of access to latrines. PLoS One, 12(3):1-20. [doi: https://doi.org/10.1371/journal.pone.0171735]
Faecal sludge ; Waste management ; Waste treatment ; Sanitation ; Transport infrastructure ; Rural areas ; Latrines ; Pit latrines ; Environmental impact assessment ; Health hazards ; Financing ; State intervention ; Households ; Maintenance costs / Bangladesh / Bhaluka
(Location: IWMI HQ Call no: e-copy only Record No: H048078)
http://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0171735&type=printable
https://vlibrary.iwmi.org/pdf/H048078.pdf
https://vlibrary.iwmi.org/pdf/H048078.pdf
(1.53 MB)
Motivation: Proper management of fecal sludge has significant positive health and environmental externalities. Most research on managing onsite sanitation so far either simulates the costs of, or the welfare effects from, managing sludge in situ in pit latrines. Thus, designing management strategies for onsite rural sanitation is challenging, because the actual costs of transporting sludge for treatment, and sources for financing these transport costs, are not well understood. Methods: In this paper we calculate the actual cost of sludge management from onsite latrines, and identify the contributions that latrine owners are willing to make to finance the costs. A spreadsheet-based model is used to identify a cost-effective transport option, and to calculate the cost per household. Then a double-bound contingent valuation method is used to elicit from pit-latrine owners their willingness-to-pay to have sludge transported away. This methodology is employed for the case of a rural subdistrict in Bangladesh called Bhaluka, a unit of administration at which sludge management services are being piloted by the Government of Bangladesh. Results: The typical sludge accumulation rate in Bhaluka is calculated at 0.11 liters/person/day and a typical latrine will need to be emptied approximately once every 3 to 4 years. The costs of emptying and transport are high; approximately USD 13 per emptying event (circa 14% of average monthly income); household contributions could cover around 47% of this cost. However, if costs were spread over time, the service would cost USD 4 per year per household, or USD 0.31 per month per household—comparable to current expenditures of rural households on telecommunications. Conclusion: This is one of few research papers that brings the costs of waste management together with financing of that cost, to provide evidence for an implementable solution. This framework can be used to identify cost effective sludge management options and private contributions towards that cost in other (context-specific) administrative areas where onsite sanitation is widespread.
3 Balasubramanya, Soumya; Evans, E.; Ahmed, R.; Habib, A.; Asad, N. S. M.; Rahman, M.; Hasan, M.; Dey, D.; Camargo-Valero, M.; Rao, Krishna Chaitanya; Fernando, Sudarshana. 2017. Take it away: the need for designing fecal sludge disposal services for single-pit latrines. Journal of Water, Sanitation and Hygiene for Development, 7(1):121-128. [doi: https://doi.org/10.2166/washdev.2017.073]
Faecal sludge ; Waste disposal ; Waste management ; Pit latrines ; Sanitation ; Rural areas ; Household wastes ; Transport infrastructure ; Public health ; Health hazards ; Environmental health / Bangladesh
(Location: IWMI HQ Call no: e-copy only Record No: H048079)
The government of Bangladesh is increasingly paying attention to the safe collection and disposal of fecal sludge from pit latrines in rural areas. In this paper, we report on current sludge disposal practices from single-pit latrines, by conducting a survey of 1,091 households with pit latrines in a rural subdistrict of Bangladesh. Almost all households were using their pits, and 90% reported that hiring pit emptiers to empty the pit for reuse was the dominant pit management practice. However, 90% of households also reported that the sludge from these pits would be disposed of in the vicinity of their homes, by digging wide and shallow troughs in the soil to absorb the sludge. These results indicate an urgent need to design an organized service that safely transports fecal sludge away for treatment. The National Committee for Fecal Sludge Management, constituted by the government of Bangladesh, is using these results to design policy for sludge management.
4 Chakraborty, T. K; Ghosh, G. C.; Ghosh, P.; Jahan, I.; Zaman, S.; Islam, Md. S.; Hossain, Md. R.; Habib, A.; Biswas, B.; Sultana, N.; Khan, A. S. 2022. Arsenic, iron, and manganese in groundwater and its associated human health risk assessment in the rural area of Jashore, Bangladesh. Journal of Water and Health, 20(6):888-902. [doi: https://doi.org/10.2166/wh.2022.284]
Groundwater pollution ; Public health ; Health hazards ; Risk assessment ; Heavy metals ; Arsenic ; Iron ; Manganese ; Water quality ; Contamination ; Drinking water ; Tube wells ; Rural areas ; Sensitivity analysis / Bangladesh / Jashore
(Location: IWMI HQ Call no: e-copy only Record No: H051258)
https://iwaponline.com/jwh/article-pdf/20/6/888/1066737/jwh0200888.pdf
https://vlibrary.iwmi.org/pdf/H051258.pdf
https://vlibrary.iwmi.org/pdf/H051258.pdf
(0.64 MB) (652 KB)
This study investigated groundwater pollution and potential human health risks from arsenic, iron, and manganese in the rural area of Jashore, Bangladesh. Study results show that the mean value of groundwater pH is 7.25 ± 0.31, with a mean conductivity of 633.94 ± 327.41 µs/cm, while about 73, 97, and 91% of groundwater samples exceeded the Bangladesh drinking water standard limits for As, Fe, and Mn, respectively. Groundwater pollution evaluation indices, including the heavy metal pollution index, the heavy metal evaluation index, the degree of contamination, and the Nemerow pollution index, show that approximately 97, 82, 100, and 100% of samples are in the high degree of pollution category, respectively. Spatial distribution exhibited that the study area is highly exposed to As (73%), Fe (82%), and Mn (46%). In the case of non-carcinogenic health risk via oral exposure, about 94% of samples suggest a high category of risk for infants, and 97% of samples are found to be at high risk for children and adults. The carcinogenic risk of arsenic via an oral exposure pathway suggests that approximately 97% of the samples are found to be at high risk for infants, and all of the samples are at high risk for both adults and children.
5 Buisson, Marie-Charlotte; Mitra, Archisman; Hounsa, T.; Habib, A.; Mukherji, Aditi. 2022. Adaptation co-benefits of solar irrigation: evidence from Bangladesh. New Delhi, India: International Water Management Institute (IWMI). CGIAR Initiative on Transforming Agrifood Systems in South Asia (TAFSSA); Solar Irrigation for Agricultural Resilience (SoLAR). 9p.
Solar powered irrigation systems ; Pumps ; Adaptation ; Farmers ; Food security ; Irrigation practices ; Groundwater ; Climate change mitigation / South Asia / Bangladesh
(Location: IWMI HQ Call no: e-copy only Record No: H051630)
(1.00 MB)
The mitigation benefits of solar irrigation pumps (SIPs), when those SIPs replace diesel pumps, are well understood. What is not equally known are the adaptation co-benefits of SIPs. This brief evaluates the co-benefits of using SIPs instead of widely used diesel pumps for farmers in Bangladesh. It estimates the impact of access to SIP on household and crop levels outcomes for improving farmer livelihoods and food security. In doing so, it explores the potential pathways of these impacts.
6 Buisson, Marie-Charlotte; Mitra, Archisman; Osmani, Z.; Habib, A.; Mukherji, Aditi. 2023. Impact assessment of Solar Irrigation Pumps (SIPs) in Bangladesh: a baseline technical report. New Delhi, India: International Water Management Institute (IWMI). 75p. [doi: https://doi.org/10.5337/2022.230]
Solar powered irrigation systems ; Pumps ; Impact assessment ; Solar energy ; Energy generation ; Gender equity ; Social inclusion ; Cropping patterns ; Irrigation practices ; Water extraction ; Tube wells ; Climate-smart agriculture ; Business models ; Tariffs ; Costs ; Tenant farmers ; Training ; Seasonal cropping ; Cultivated land ; Plot size ; Food security ; Public-private partnerships ; Villages ; Household surveys ; Socioeconomic environment ; Greenhouse gas emissions ; Diesel oil / Bangladesh
(Location: IWMI HQ Call no: e-copy only Record No: H051815)
(3.44 MB)
7 Alam, Mohammad Faiz; Sikka, Alok; Pavelic, Paul; Krishan, S.; Dodiya, M.; Habib, A.; Haque, A. 2023. Pumping behavior of solar irrigation farmers for assessing the sustainability of groundwater in Bangladesh and India. Colombo, Sri Lanka: International Water Management Institute (IWMI). 4p. (Issue Brief Series 5)
Solar powered irrigation systems ; Pumping ; Farmers ; Sustainability ; Groundwater irrigation ; Pumps ; Solar energy ; Groundwater extraction ; Government ; Agriculture / Bangladesh / India / Gujarat / Suryashakti Kisan Yojana (SKY) Scheme
(Location: IWMI HQ Call no: e-copy only Record No: H052302)
(1.69 MB)
The increasing use of Solar Irrigation Pumps (SIPs) has raised concerns about the overexploitation of groundwater. So, this study aims to evaluate the impact of SIPs on pumping behaviour of farmers and its subsequent effect on overall groundwater resources in Bangladesh and India. In Bangladesh, the study is being carried out in the intensively irrigated North-West region, where the government is promoting the feefor- service model for solar irrigation. This model creates a solar irrigation command area by setting up centralized sponsored SIPs. In India, the study is being conducted in the state of Gujarat, where the grid-connected solar irrigation pump model has been implemented under the Suryashakti Kisan Yojana (SKY) scheme.
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