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Performance Comparison of Large Diameter Residential Drinking Water WellsJavor, Paul January 2010 (has links)
Published scientific work indicates that residential large diameter drinking water wells are at a higher risk of contamination from surface water impacts than drilled wells. The possibility of a higher incidence of contamination of large diameter wells is attributed to site selection and construction problems such as leaking joints in the well casing, ineffective annular sealant placed between the well casing and the formation, a poorly fitted cover with an access lid that promotes contaminant entry and air entry without adequate air filtration, well location down gradient of septic effluent sources, and depth limitations due to improper equipment used to advance the well which results in shallow wells often situated in topographical lows. In some situations, flaws in the well design were actually deliberate measures intended to capture surface water at sites with low groundwater yield.
Historically, residential drinking water well performance studies have focussed on existing wells; however, uncertainty in the actual well construction methods and materials, well age and maintenance efforts have been problematic. A field and laboratory study was completed to assess the performance of several design changes that were thought to improve the integrity of large diameter drinking water wells, and to determine whether one design is more prone to atmospheric and/or surface water contamination than the other.
Four large diameter residential wells were installed at a study site in Lindsay, Ontario. Three of these wells are constructed with enhanced construction methods (two using a cement tile casing and one using a galvanized steel casing) and annular sealants, while the fourth was constructed using conventional methods for cement cased wells. The enhanced test wells utilized a sealant between the casing sections, various annular sealants between the formation and the well casing, sanitary waterline connections, and ventilation with air filtration. The well constructed using outdated methods did not have any of these advanced features. An automated water extraction system removed about 875 L/day from each well to mimic residential usage.
Routine monitoring, and laboratory and field testing were used to collect pertinent data required for this performance assessment. Routine monitoring involved the visual inspection of the wells, collection of well water elevation, collection of soil temperature profile data, collection and analysis of water samples, and collection of cumulative water volumes purged from the test wells. A biofilm cleaning study and analysis of cement-bentonite grout was conducted in the laboratory while smoke and aqueous tracer tests were conducted in the field. The biofilm cleaning study entailed growing a biofilm on different large diameter well casing materials and applying cleaning methods thought to be practical for cleaning the interior walls of large diameter wells. Different mixtures of cement-bentonite grout were subjected to volume measurements, vertical load bearing capacity analysis, and hydraulic conductivity analysis to determine their suitability as a potential annular sealant. The tracer tests were developed to determine whether pathways for either airborne contaminants or surface water to enter the test wells exist. The test wells were filled with smoke and monitored for potential atmospheric pathways. A tracer solution was infiltrated around the test wells and the interior of the tests wells were monitored for potential pathways for surface water to enter.
Bacteriological indicators were detected in all test wells. The smoke tracer tests demonstrated that pathways for airborne contaminants to enter the test wells exist with more pathways observed in the winter than the summer. The aqueous tracer tests highlighted several areas where surface water could enter the test wells if ponding occurred around the well casing. As expected the enhanced test wells performed much better than the conventional test well for both of these tracer tests. The results of the biofilm cleaning study indicated that galvanized steel or fibreglass casing materials were the only materials able to be cleaned effectively. The best method in this study to remove biofilm from casing materials was pressure washing. The results from the cement-bentonite grout investigation indicated that cement-bentonite grout with 5% bentonite would make the most suitable annular sealant as its volume changed the least during curing, it was strong enough to support the load from maintenance efforts, and was the most impervious.
The results of this study indicate that large diameter wells constructed with a proper annular sealant, sealant between casing sections and a sanitary waterline connection are less prone to contamination. Monitoring of the test wells should continue as they mature to determine whether this plays a significant role in their ability to prevent contamination of large diameter wells. Smoke tracer tests should be conducted again during the winter to determine if temperature was the cause of increased atmospheric pathways. A field-scale method to remove biofilm from the interior casing wall of large diameter wells should be developed and tested. A field-scale investigation of cement-bentonite grout for use as an annular sealant should be completed. Fibreglass casings can be fabricated as a continuous piece with no seams or joints and hence another well should be constructed and studied using corrugated fibreglass (NSF ANSI 61) casing.
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Performance Comparison of Large Diameter Residential Drinking Water WellsJavor, Paul January 2010 (has links)
Published scientific work indicates that residential large diameter drinking water wells are at a higher risk of contamination from surface water impacts than drilled wells. The possibility of a higher incidence of contamination of large diameter wells is attributed to site selection and construction problems such as leaking joints in the well casing, ineffective annular sealant placed between the well casing and the formation, a poorly fitted cover with an access lid that promotes contaminant entry and air entry without adequate air filtration, well location down gradient of septic effluent sources, and depth limitations due to improper equipment used to advance the well which results in shallow wells often situated in topographical lows. In some situations, flaws in the well design were actually deliberate measures intended to capture surface water at sites with low groundwater yield.
Historically, residential drinking water well performance studies have focussed on existing wells; however, uncertainty in the actual well construction methods and materials, well age and maintenance efforts have been problematic. A field and laboratory study was completed to assess the performance of several design changes that were thought to improve the integrity of large diameter drinking water wells, and to determine whether one design is more prone to atmospheric and/or surface water contamination than the other.
Four large diameter residential wells were installed at a study site in Lindsay, Ontario. Three of these wells are constructed with enhanced construction methods (two using a cement tile casing and one using a galvanized steel casing) and annular sealants, while the fourth was constructed using conventional methods for cement cased wells. The enhanced test wells utilized a sealant between the casing sections, various annular sealants between the formation and the well casing, sanitary waterline connections, and ventilation with air filtration. The well constructed using outdated methods did not have any of these advanced features. An automated water extraction system removed about 875 L/day from each well to mimic residential usage.
Routine monitoring, and laboratory and field testing were used to collect pertinent data required for this performance assessment. Routine monitoring involved the visual inspection of the wells, collection of well water elevation, collection of soil temperature profile data, collection and analysis of water samples, and collection of cumulative water volumes purged from the test wells. A biofilm cleaning study and analysis of cement-bentonite grout was conducted in the laboratory while smoke and aqueous tracer tests were conducted in the field. The biofilm cleaning study entailed growing a biofilm on different large diameter well casing materials and applying cleaning methods thought to be practical for cleaning the interior walls of large diameter wells. Different mixtures of cement-bentonite grout were subjected to volume measurements, vertical load bearing capacity analysis, and hydraulic conductivity analysis to determine their suitability as a potential annular sealant. The tracer tests were developed to determine whether pathways for either airborne contaminants or surface water to enter the test wells exist. The test wells were filled with smoke and monitored for potential atmospheric pathways. A tracer solution was infiltrated around the test wells and the interior of the tests wells were monitored for potential pathways for surface water to enter.
Bacteriological indicators were detected in all test wells. The smoke tracer tests demonstrated that pathways for airborne contaminants to enter the test wells exist with more pathways observed in the winter than the summer. The aqueous tracer tests highlighted several areas where surface water could enter the test wells if ponding occurred around the well casing. As expected the enhanced test wells performed much better than the conventional test well for both of these tracer tests. The results of the biofilm cleaning study indicated that galvanized steel or fibreglass casing materials were the only materials able to be cleaned effectively. The best method in this study to remove biofilm from casing materials was pressure washing. The results from the cement-bentonite grout investigation indicated that cement-bentonite grout with 5% bentonite would make the most suitable annular sealant as its volume changed the least during curing, it was strong enough to support the load from maintenance efforts, and was the most impervious.
The results of this study indicate that large diameter wells constructed with a proper annular sealant, sealant between casing sections and a sanitary waterline connection are less prone to contamination. Monitoring of the test wells should continue as they mature to determine whether this plays a significant role in their ability to prevent contamination of large diameter wells. Smoke tracer tests should be conducted again during the winter to determine if temperature was the cause of increased atmospheric pathways. A field-scale method to remove biofilm from the interior casing wall of large diameter wells should be developed and tested. A field-scale investigation of cement-bentonite grout for use as an annular sealant should be completed. Fibreglass casings can be fabricated as a continuous piece with no seams or joints and hence another well should be constructed and studied using corrugated fibreglass (NSF ANSI 61) casing.
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Šachtinių šulinių geriamojo vandens, naudojamo nėščių moterų ir kūdikių, kokybė ir jo gerinimo galimybės Pakruojo rajone / The quality of the drinking water from wells used by pregnant women and infants and opportunities for it improvement in pakruojis districtŽuvininkienė, Vilma 18 April 2011 (has links)
Darbo tikslas – įvertinti šachtinių šulinių geriamojo vandens kokybę ir jo gerinimo galimybes Pakruojo rajone.
Uždaviniai:
1. Įvertinti šachtinių šulinių geriamojo vandens kokybės rodiklius.
2. Nustatyti nėščių moterų ir moterų, kurios augina kūdikius iki 6 mėn. amžiaus, požiūrį į naudojamo vandens kokybę ir tyrimo rodiklius.
3. Įvertinti šachtinių šulinių geriamojo vandens kokybės gerinimo galimybes.
Tyrimo metodika. Anketinė nėščių moterų ir kūdikius iki 6 mėn. amžiaus auginančių moterų (n=167, atsako dažnis 100 proc.) apklausa. Šachtinių šulinių geriamojo vandens kokybės rodiklių tyrimo protokolų analizė (n = 270) ir visuomenės sveikatos centro ir biuro specialistų, rajono ekologo (n=3, atsako dažnis 100 proc.) interviu. Apklausos duomenys analizuoti „SPSS 15.0 for Windows“ programa. Hipotezės tikrintos, taikant χ² testą, nustatčius reikšmingumo lygį p<0,05.
Rezultatai. Tyrimo metu buvo nustatyta, kad respondentės, naudojančios užterštų šachtinių šulinių vandenį, dažniausiai gyvena kaimo vietovėse, turi mažas metines pajamas, yra bedarbės. 95,8 % respondenčių gavo informaciją apie šachtinių šulinių vandens kokybę ir patarimus, kaip apsaugoti save ir kūdikius. Moterys, turinčios žemesnį išsilavinimą, informavus apie vandens tyrimo rezultatus bei riziką sveikatai, vartoja užterštą geriamąjį vandenį nitratais ir nesiima jokių veiksmų jo kokybei gerinti. Netinkamai tvarkoma šulinio aplinka, kuri gali sąlygoti užteršimą: apie šulinį auginami augalai, kurie yra tręšiami... [toliau žr. visą tekstą] / The Aim of the study. To asses the quality of the possibilities of improving of water quality.
Objectives :
1. Estimate the quality of drinking water.
2. Evaluate the attitude of pregnant women and the women growing up babies sunder the age of six (6) months to the wells water quality indicators.
3. Estimate the opportunities for improvements of quality of drinking water.
Research methods. Questionnaire of pregnant women and the women raising infants under six months (n=167), response rate -100 percent. The analysis of the wells for drinking water quality indicators (n=270) was done by the public health center. Interview of the public health professionals of the region: (n=3, response rate 100 percent). Survey data, was analyzed at “SPSS15.0 for Windows” program. The Hypothesis is verified by using the test χ2 , significance level p<0,05.
Results. 95.8 % of respondents have received enough information concerning the quality of the water in their wells. The women with lower education were informed about the test results of their water, about health risks using the water, but they still are using contaminated by nitrates drinking water and don’t take any actions to improve it’s quality. Improperly maintenance of wells and their environment may lead to contamination of drinking water: the plants growing near the wells are fertilized with organic fertilizers, sewage is loaded on the ground. The pregnant women with higher education show better knowledge for improvement of water... [to full text]
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Better safe than sorry : towards appropriate water safety plans for urban self supply systemsKilanko-Oluwasanya, Grace Olutope January 2009 (has links)
Self Supply Systems (SSS) can be defined as privately owned household level water sources. The research focus is on urban self supply hand dug wells in Abeokuta, Nigeria. Self supply wells serve an estimated 45% of Abeokuta’s population. SSS can be gradually upgraded to improve water quality, but water quality can also be improved through effective risk management. The World Health Organization (WHO) has developed a risk management tool known as Water Safety Plans (WSP), but the tool has not been tried for SSS. This research focuses on the relevance of the generic WHO water safety plans tool to SSS, with the aim to develop an appropriate water safety framework for self supply sources to ensure acceptable household water. Water from self supply wells is used for both ingestion and non-ingestion household activities. The water quality of the sources is poor and not safe for consumption with faecal coliform counts in excess of 100 cfu/100 ml of water. Self supply wells in Abeokuta are plagued by four main water safety threats; style of source operation – primarily through bucket and rope -, construction problems, proximity to sources of contamination, and user’s hygiene practices. Users are in denial of the health consequences of unsafe water. There is a predominantly reactive attitude to water safety management. The main source management approaches include access and hygiene management. To appropriate existing WSP to SSS, source and water safety control measures require user acceptability to be sustainable in terms of adoption and compliance. Incentives are needed for the adoption of SSS water safety plans. A two- phase supporting program is necessary: awareness and enlightenment campaigns and relevant training activities. Water safety development for self supply wells need to be initiated and coordinated by an established institution other than the source owners. This research suggests the Department of Public Health as the institution to facilitate the development of water safety plans for SSS in Abeokuta, Nigeria.
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Šachtinių šulinių geriamojo vandens, naudojamo nėsčių moterų ir kūdikių, kokybė ir jogerinimo galimybės Pakruojo rajone / Dug wells for drinking water used by pregnant women and infants, the quality of the water and opportunities for improvement in pakruojis districtŽuvininkienė, Vilma 21 June 2010 (has links)
Darbo tikslas – įvertinti šachtinių šulinių geriamojo vandens kokybę ir jo gerinimo galimybes Pakruojo rajone.
Uždaviniai:
1. Įvertinti šachtinių šulinių geriamojo vandens kokybės rodiklius.
2. Nustatyti nėščių moterų ir moterų, kurios augina kūdikius iki 6 mėn. amžiaus, požiūrį į naudojamo vandens kokybę ir tyrimo rodiklius.
3. Įvertinti šachtinių šulinių geriamojo vandens kokybės gerinimo galimybes.
Tyrimo metodika. Anketinė nėščių moterų ir kūdikius iki 6 mėn. amžiaus auginančių moterų (n=167, atsako dažnis 100 proc.) apklausa. Šachtinių šulinių geriamojo vandens kokybės rodiklių tyrimo protokolų analizė (n = 270) ir visuomenės sveikatos centro ir biuro specialistų, rajono ekologo (n=3, atsako dažnis 100 proc.) interviu. Apklausos duomenys analizuoti „SPSS 15.0 for Windows“ programa. Hipotezės tikrintos, taikant χ² testą, nustatčius reikšmingumo lygį p<0,05.
Rezultatai. Tyrimo metu buvo nustatyta, kad respondentės, naudojančios užterštų šachtinių šulinių vandenį, dažniausiai gyvena kaimo vietovėse, turi mažas metines pajamas, yra bedarbės. 95,8 % respondenčių gavo informaciją apie šachtinių šulinių vandens kokybę ir patarimus, kaip apsaugoti save ir kūdikius. Moterys, turinčios žemesnį išsilavinimą, informavus apie vandens tyrimo rezultatus bei riziką sveikatai, vartoja užterštą geriamąjį vandenį nitratais ir nesiima jokių veiksmų jo kokybei gerinti. Netinkamai tvarkoma šulinio aplinka, kuri gali sąlygoti užteršimą: apie šulinį auginami augalai, kurie yra tręšiami... [toliau žr. visą tekstą] / The Aim of the study: to asses the quality of the possibilities of improving it in Pakruojis district.
Objectives :
1. Estimate the quality of the dug wells for drinking water.
2. Evaluate the standpoint of pregnant women and the women growing up babies sunder the age of six (6) months to the dug wells water quality indicators.
3. Estimate the opportunities of improvements for the quality of drinking water.
Research methods. Questions for pregnant women and the women raising infants under six months Cn =167, response rate was 100 percent survey. The analysis of the dug wells for drinking water quality indicators (n=270) made by the public health center, the office professionals the region ecologist (n=3, response rate 100 percent) interview. Survey data, was analysed at “SPSS15.0 for Windows” program. The Hypothesis is verified by using the test χ2. According to it the significance level is p<0,05.
Results. The study found out that the respondents using contaminated water from dug wells, are unemployed. 95.8 % of them have received the right information about the quality of the water in their dug wells. They also have get the advices how to protect themselves and their children. The women with lower education were informed about the test results of their water, about health risks using the water, they still consumpt contaminated by nitrates drinking water and don’t take any actions to improve its quality. Improperly handled wells, their environment which may lead to... [to full text]
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