Academic literature on the topic 'Urban and Industrial Water Management'
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Journal articles on the topic "Urban and Industrial Water Management"
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Tredoux, Gideon, Peter King, and Lisa Cavé. "Managing urban wastewater for maximising water resource utilization." Water Science and Technology 39, no. 10-11 (May 1, 1999): 353–56. http://dx.doi.org/10.2166/wst.1999.0681.
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The Atlantis Water Resource Management Scheme uses artificial recharge of urban stormwater and treated wastewater to augment the natural groundwater resource. The key to the success of the scheme is the fractionation of the stormwater into components of distinctly different quality, and the separate treatment of domestic and industrial wastewater for different end-uses. The groundwater exploitation strategy is largely controlled by water quality requirements. Reuse of domestic and industrial wastewater depends on quality parameters. Tertiary treated domestic effluent is destined for indirect reuse via the aquifer, while treated industrial wastewater is used together with spent regenerant brine and stormwater from the noxious trade area for preventing seawater intrusion. Both residential and industrial stormwater is separated into the base flow and storm flow components and utilised for various purposes. The sustainable operation of the water resource scheme serves as a prototype for the optimal use of water and protection of the environment.
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Gwozdziej-Mazur, Joanna, and Kamil Świętochowski. "Analysis of the water meter management of the urban-rural water supply system." E3S Web of Conferences 44 (2018): 00051. http://dx.doi.org/10.1051/e3sconf/20184400051.
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Water losses in the water supply network pose a continuous challenge for water companies. Already during designing new networks, the designer assumes that the amount of water demand must be increased by a certain percentage (usually by 10% of the total average daily water demand for municipal and industrial purposes) due to the possible occurrence of water losses. Water loss is meant the difference between the amount of water injected into the network and the amount of water used and invoiced, i.e. that brings income for the water supply company. Proper water metering management helps to limit water losses. This paper presents analysis of the water meter management of urban-rural water supply system.
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Aivazidou, Eirini, Georgios Banias, Maria Lampridi, Giorgos Vasileiadis, Athanasios Anagnostis, Elpiniki Papageorgiou, and Dionysis Bochtis. "Smart Technologies for Sustainable Water Management: An Urban Analysis." Sustainability 13, no. 24 (December 16, 2021): 13940. http://dx.doi.org/10.3390/su132413940.
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As projections highlight that half of the global population will be living in regions facing severe water scarcity by 2050, sustainable water management policies and practices are more imperative than ever. Following the Sustainable Development Goals for equitable water access and prudent use of natural resources, emerging digital technologies may foster efficient monitoring, control, optimization, and forecasting of freshwater consumption and pollution. Indicatively, the use of sensors, Internet of Things, machine learning, and big data analytics has been catalyzing smart water management. With two-thirds of the global population to be living in urban areas by 2050, this research focuses on the impact of digitization on sustainable urban water management. More specifically, existing scientific literature studies were explored for providing meaningful insights on smart water technologies implemented in urban contexts, emphasizing supply and distribution networks. The review analysis outcomes were classified according to three main pillars identified: (i) level of analysis (i.e., municipal or residential/industrial); (ii) technology used (e.g., sensors, algorithms); and (iii) research scope/focus (e.g., monitoring, optimization), with the use of a systematic approach. Overall, this study is expected to act as a methodological tool and guiding map of the most pertinent state-of-the-art research efforts to integrate digitalization in the field of water stewardship and improve urban sustainability.
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Eastcott, J. L., T. Aramaki, K. Hanaki, Z. Li, and J. You. "Assessment of sustainable water management for rapidly developing urban regions in Guangzhou City, China." Water Science and Technology 48, no. 10 (November 1, 2003): 55–62. http://dx.doi.org/10.2166/wst.2003.0538.
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The Shawan River will be the focal point in the development of the Panyu District, the southern-most district of Guangzhou City in the Guangdong Province of South China. In this research, through the use of two scenarios, the future water quality of the Shawan River was predicted with relation to changes in the water quantity utilized to fuel industrial and domestic development. The worst-case scenario used, simulated the situation if no wastewater treatment was employed, and the best-case scenario simulated the situation if 90% of the pollution load was removed. The period of simulation was for the years 2020 and 2050. Three flowrates were used in the evaluation, those of: the 90% probability of the month of lowest flow (37.2 m3/s); and the range of flowrates within the low flow period, that is, the dry season from November to February (307 and 432 m3/s). Subsequently, two countermeasures (industrial and domestic water savings) - sustainable initiatives - were nested within the two scenarios to ascertain improvements in water quality as a direct result of reduction in water quantity used. The industrial water saving countermeasure showed the greatest improvement in water quality. For the 90% probability of lowest flow for the worst-case scenario, this countermeasure equated to a 63% decrease in BOD. For the low flow period flowrates the background concentration of pollutants was more influential than improvements imparted by the countermeasures to the future predicted water quality. It was recommended that industrial countermeasures be used that take into account water saving, water recycling, the use of brackish water for cooling, and the implementation of economic pricing initiatives. Also that inter-district governmental policy initiatives be introduced to prevent upstream pollution from influencing downstream proposals, further enhancing sustainable water management of the Shawan River.
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Chen, Jing, and Da Wei Yan. "Coordination Degree Assessment Model for Regional Industrial Water Utilization Structure." Advanced Materials Research 955-959 (June 2014): 3343–46. http://dx.doi.org/10.4028/www.scientific.net/amr.955-959.3343.
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More reasonable management for water resources use may be critical to survive water crisis and realize sustainable development of urban-water system. This work attempts to set up a assessment model for regional industrial water utilization structure based on synergetics theory and grey method. In this model, both economic benefit and environmental effect are considered.
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Cubillo, Francisco. "Looking for efficiency through integrated water management between agriculture and urban uses." Water Supply 10, no. 4 (September 1, 2010): 584–90. http://dx.doi.org/10.2166/ws.2010.154.
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Many urban water systems must cope with water scarcity and climate change and additionally they must be able to fulfil the objectives of environmental protection, efficiency and sustainability. At the end they must provide the expected level of service now and in the future horizons. Some new comprehensive approaches are assessing the total water footprint in a territory using the concept of virtual water and incorporating interactions between agriculture, urban and industrial uses. Besides this broader method of analysis it is important to go further and make analysis of opportunities for efficiency based on a new paradigm of integrated use of water. Investing in improvement of efficiency not only in urban distribution systems, studying the possibilities of permanent or temporal reallocation of water rights from agriculture to urban. Establishing agreements for interchange of raw water for urban regenerated water. Signing options contracts for water trading under drought conditions. Risk of shortage is the factor to complete the framework and it is a key component to review and to manage
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Pareek, N. K. "Industrial Wastewater Management in Developing Countries." Water Science and Technology 25, no. 1 (January 1, 1992): 69–74. http://dx.doi.org/10.2166/wst.1992.0011.
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Most developing countries around the globe are striving hard for a fast economic growth and associated industrialization. As a result, numerous industries are emerging mostly in the urban areas of developing countries. The wastewater, which is an obvious byproduct of all industries, receives lower priority in developing countries. The plant designer and supplier normally provide an in-built pollution control system for new industries. The peripheral facilities, like wastewater treatment, suffer due to limited financial resources. In addition, other factors such as lack of experience in operation, management and plant repairs, lack of spare parts, frequent shortage of power/fuel, lack of end products disposal facilities, social and political reasons contribute to inadequate wastewater management in developing countries. Absence of industrial effluent standards and corresponding legislation for enforcing them are common in developing countries. Environmental impact assessment studies for the industrial growth are commonly not carried out in developing countries. Public awareness against pollution is also at a low profile in developing countries. The industrial wastewater problems in developing countries are discussed in this paper with some typical examples. The critical appraisal of the industrial wastewater management situation in developing countries is concluded by recommendations for the course of action.
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Ding, Yi Fan, De Shan Tang, Yu Hang Wei, and Yi Xiang Sun. "Naturalization Design of Urban Water Landscape." Advanced Materials Research 919-921 (April 2014): 1559–62. http://dx.doi.org/10.4028/www.scientific.net/amr.919-921.1559.
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Urban rivers have always been the foundation of urban development. In the industrial era, many countries, including China, have experienced the painful lessons of environmental pollution. From the human-water relationship study date back to ancient time, we know that there is urgent need for the reversal of this negative human impact. The naturalization design of urban water landscape requires (1) use the advanced science and technology in project planning, design, construction and management; (2) save the project investment, speed up the progress and guarantee the project quality; (3) suitable for bio-lived and multiplied and for the survival needs of the organism after river training. When conducting the urban river landscape design, we should plan and design carefully based on natural and ecological principles, and the aim is not only visually pleasing, but also ecologically sustainable.
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Liu, Ariane, Damien Giurco, and Pierre Mukheibir. "Advancing household water-use feedback to inform customer behaviour for sustainable urban water." Water Supply 17, no. 1 (July 26, 2016): 198–205. http://dx.doi.org/10.2166/ws.2016.119.
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Sustainable water management is increasingly essential in an age characterised by rapid population growth, urban and industrial development and climate change. Opportunities to promote conservation and water-use efficiencies remain attractive in directly reducing water demand. Smart water metering and the provision of detailed water-use feedback to consumers present exciting new opportunities for improved urban water management. This paper explores two smart water metering trials in New South Wales, Australia, which provided household water consumption feedback via (i) paper end-use reports and (ii) an online portal. This combination enabled a deeper exploration of the various impacts of detailed feedback enabled via smart water metering. The positive effects uncovered by the research present an important opportunity for smart water metering feedback to contribute towards more sustainable urban water management. Their summary contributes empirical evidence on the impacts for water utilities considering embarking on the smart water metering journey with their customers. The identification of future research and policy needs sets an agenda for smart water metering to promote a sustainable digital urban water future. Larger-scale trials are now required and utilities should integrate the design and plans for scalable advanced feedback programs at the outset of smart meter implementations.
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Li, Kebai, Samlali Hajar, Zhilei Ding, Tom Dooling, Guo Wei, Chenke Hu, Yuting Zhang, and Kaiyi Zhang. "Dynamic optimization of input production factors for urban industrial water supply and demand management." Journal of Environmental Management 270 (September 2020): 110807. http://dx.doi.org/10.1016/j.jenvman.2020.110807.
Full textDissertations / Theses on the topic "Urban and Industrial Water Management"
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Fulkerson, Anthony L. "The Differences Between Industrial and Municipal Executives' Practices and Perceptions of an NPDES Water Pollution Control System in Tennessee." Digital Commons @ East Tennessee State University, 1990. https://dc.etsu.edu/etd/2680.
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The purpose of this study was to determine the differences between industrial and municipal executives' practices and perceptions toward the administrative requirements of a water pollution control system as set forth in a National Pollutant Discharge Elimination System permit. This was a descriptive study that utilized a two-part attitudinal survey designed to obtain the perceptions of the executives (N = 171) of all major industries and all major municipalities in the State of Tennessee who had direct responsibility for the administrative requirements of an NPDES permitted water pollution control system. Descriptive statistics were used for the analysis of data with the chi-square formula used for the analysis of the study's three hypotheses. The descriptive analysis of the three hypotheses resulted in the following findings and conclusions: (1) There was no significant difference in what principal executives perceived was the most important administrative requirement of the NPDES permitted water pollution control system ($\chi\sp2$ = 1.44, df = 2). Both categories defined operational problems as the most important administrative requirement. (2) There was a significant difference in what principal executives perceived were the important water quality designated uses achieved by the facility water pollution control system ($\chi\sp2$ = 12.80, df = 6). Industrial respondents perceived "protection of fish and aquatic life" as most important, while municipal executives perceived "domestic and industrial water supply" as most important. (3) There was no significant difference in what principal executives perceived was the direct motivation for the water pollution control system installation, operation, and maintenance ($\chi\sp2$ = 1.65, df = 2). Both categories perceived environmental motivation as the most important reason for the NPDES permit administrative requirements. These findings supported the Clean Water Act regulatory program national objective to "restore and maintain the chemical, physical, and biological integrity of the nation's waters" (Arbuckle, Frick, Hall, Miller, Sullivan, & Vanderver, 1983, p. 83). The major municipal and industrial facility executives in Tennessee were in agreement that their systems were effective in achieving compliance with the administrative requirements of the permit. The researcher recommended future research to identify specific problems resulting from the administrative requirements of the NPDES permit and replications of the study nationally.
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Maxter, Melissa. "Sustainable Urban Development : Development Option Using Nature-based Solutions." Thesis, Mittuniversitetet, Avdelningen för ekoteknik och hållbart byggande, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:miun:diva-33925.
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The paper evaluates nature-based solutions for a retrofitting proposal for the combined regeneration, climate adaptation, and green space management of the industrial area Gåsebäck in Helsingborg, Sweden. The objective of this study was to evaluate options for how Gåsebäck could be sustainably regenerated and developed, while providing additional security against future negative effects of climate change, through the implementation of nature-based solutions. The methods used were unstructured interviews, literature study, thematic data analysis, and scoping review. Some urban societal challenges the area is facing were identified as Urban regeneration, Climate adaptation, and Green space management. The suggested NBSs to address these challenges are phytoremediation, mycoremediation, street trees and bushes, green walls, green roofs, flower beds, permeable surfaces, roadside greenery, rain gardens, de-culvertation and pocket parks. Examples of how the identified nature-based solutions can be retrofitted to block Italien are installing green walls on the old fire station for noise and pollution abatement, biodiversity increase, climate regulation, and enhancement of green elements; green roofs on various buildings for e.g. water management, increased biodiversity and green elements; street trees and bushes along the streets Södergatan and Malmöleden/Gåsebäcksvägen for noise and pollution abatement, water management, biodiversity increase, and enhancement of green elements; site specific installation or pocket park with phyto- or mycoremediation; flower beds and roadside traffic to increase attractiveness; and rain gardens and permeable surfaces for water management.20180620
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Livingston, Daniel John Civil & Environmental Engineering Faculty of Engineering UNSW. "Institutions and decentralised urban water management." Publisher:University of New South Wales. Civil & Environmental Engineering, 2008. http://handle.unsw.edu.au/1959.4/41336.
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Physically decentralised water management systems may contribute to improving the sustainability of urban water management. Any shift toward decentralised systems needs to consider not just physical system design but also social values, knowledge frames, and organisations, and their interconnections to the physical technology. Four cases of recent Australian urban water management improvement projects were researched using qualitative methods. Three cases were of decentralised water management innovation. The other was of a centralised system, although decentralised options had been considered. These cases were studied to identify institutional barriers and enablers for the uptake of decentralised systems, and to better understand how emerging environmental engineering knowledge might be applied to overcome an implementation gap for decentralised urban water technologies. Analysis of each case focused on the institutional elements of urban water management, namely: the values, knowledge frames and organisational structures. These elements were identified through in-depth interviews, document review, and an on-line survey. The alignment of these elements was identified as being a significant contributor to the stability of centralised systems, or to change toward decentralised systems. A new organisational home for innovative knowledge was found to be common to each case where decentralised innovation occurred. ??Institutional entrepreneurs??, strong stakeholder engagement, and inter-organisational networks were all found to be linked to the creation of shared meaning and legitimacy for organisational and technological change. Existing planning frameworks focus on expert justification for change rather than institutional support for change. Institutional factors include shared understandings, values and organisational frameworks, and the alignment of each factor. Principles for, and examples of, appropriate organisational design for enabling and managing decentralised technological innovation for urban water management are proposed. This research contributes to the understanding of the institutional basis and dynamics of urban water management, particularly in relation to physical centralisation and decentralisation of urban water management technologies and, to a lesser extent, in relation to user involvement in urban water management. Understanding of factors that contribute to enabling and constraining decentralised technologies is extended to include institutional and organisational factors. New and practical pathways for change for the implementation of decentralised urban water systems are provided.
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Hall, Sandra. "The contribution of heavy industry and commercial activity at Canning Vale to the loads of nitrogen and phosphorus released in the Bannister Creek catchment area." Thesis, Edith Cowan University, Research Online, Perth, Western Australia, 2007. https://ro.ecu.edu.au/theses/307.
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Stormwater is recognised as a transport mechanism for pollutants. Pollutants enter stormwater drains via surface washoff, subsurface flow or direct discharge. Landuse is reported to affect the quantity of pollutants released into stormwater drains. In Australia, the contribution of nutrients (nitrogen and phosphorus) and surfactants from industrial areas to surface drainage is poorly understood. Previous research has mainly focused on the quality of water leaving residential and agricultural areas. In Western Australia, there is growing concern over the health of the Swan-Canning River system, which is seeing signs of eutrophication. Runoff and discharge from residential, commercial, and industrial areas influence the quality of water in the Swan-Canning River system.
A study of nutrient release was undertaken for the eastern sector of the Canning Vale Industrial Area, to determine the contribution of industry to nutrient loads received by the Canning River system, between August 2001 and 2002. Data was collected three times a week using a point sampling regime. Diurnal and storm event variability were also tested. Data collected from the eastern sector of the industrial area was compared to that released from the entire Bannister Creek Catchment area.
Nitrogen and phosphorus concentrations downstream of industrial areas have been reported at 45mg L-1 and 15mg L-1 respectively (Thomas et al, 1997; John, 2000). In this study, the median concentrations of nitrogen and phosphorus downstream of industry in Bannister Creek, at the Tom Bateman Reserve Detention Basin, were 1.32mg L-1 and 0.11mg L-1 respectively. Concentrations of nitrogen and phosphorus were not indicative of point source discharge. Nutrient concentrations reported in Bannister Creek in this study, have been consistent with data collected and reported in other studies i.e. Donohue et al, 1992 and Jakowyna, 2002.
Nitrogen and phosphorus loads released from the entire Bannister Creek Catchment area, exceeded loads previously reported in other studies i.e. Donohue et al ( 1994); Donohue et al, 1992 and Jakowyna, 2002. An estimated 32890kg of nitrogen and 2085kg of phosphorus was released from Bannister Creek Catchment during the study. Rainfall during the study period was reflective of the drying climate Perth has been experiencing over the last ten years. Nitrogen and phosphorus released from Bannister Creek during the study period are likely to be underestimated, as they do not include the data collected for a significant storm event recorded at Hybanthus Road on the 16.4.02. During this 1- 2/1-5 ARI storm event 1586kg of nitrogen and 185kg of phosphorus were exported from Bannister Creek, producing loads ten times greater than that estimated during the point sampling regime. The later values were used in the calculation of annual loads to maintain consistency between the study sites. Despite the significant load of nutrients released from the catchment on 16.4.02, rainfall was not the main transport mechanism for nitrogen and phosphorus, indicated by the weak correlation e.g. R2 > 0.1. Base flow was determined to be the most significant pathway of nutrient export.
The concentrations and loads of nitrogen and phosphorus released from the industrial area were low, but the contribution to catchment loading was important. The rate of nutrient release per unit of area was higher from the eastern sector of the Canning Vale Industrial Area than the entire Bannister Creek Catchment Area. Nitrogen was released at a rate of 4163kg km2 yr from the industrial area and 134 2. 86kg km2 yr for the entire catchment. Phosphorus was the same. From the industrial area it was released at a rate of 397kg km2 yr compared to a rate of 94.2kg km2 yr from the entire Bannister Creek Catchment Area.
The study revealed the need to retain nutrients within the catchment. Studies on stormwater management suggest that this can be achieved through Water Sensitive Urban Design and Best Management Practices. Both strategies work on the principle of retaining and recycling nutrients within the catchment area. Work is currently been undertaken to meet the objectives of these two management strategies in Bannister Creek. Work has included the removal of the southwestern bank of the Tom Bateman reserve detention basin to create a meandering wetland, and the downgrading of the banks along Bywood Way, Lynwood to create a Living Stream. Further studies should focus on the effectiveness of these strategies.
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Makropoulos, Christos K. "Spatial decision support for urban water management." Thesis, Imperial College London, 2003. http://hdl.handle.net/10044/1/11385.
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Peng, Yang Amy, and 彭阳. "Living with water: decentralized storm water management in urban village." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2013. http://hub.hku.hk/bib/B50707048.
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Strand, Anders. "Urban Rain Water Harvesting and Water Management in Sri Lanka." Thesis, Malmö högskola, Fakulteten för teknik och samhälle (TS), 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:mau:diva-20589.
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Denna fältstudie kommer att undersöka betydelsen av regnvattenanvändning som vattenförsörjnings alternativ. Hur kan hållbara innovativa lösningar tas fram för att lösa vattenförsörjningen på Sri Lanka? Efter lidandet av mer än 30 års inbördeskrig och efter de omfattande skadorna från tsunamin 2004, står nu Sri Lanka inför många utmaningar rörande landets återuppbyggnad. Tillgången till vatten är den viktigaste grundläggande förutsättningen för ett fungerande samhälle. I landets torra zon är det långa perioder av torka då vattenkällor sinar och inget naturligt vatten finns att tillgå. Detta trots att det under monsunen kommer tillräckligt med regn för att täcka vattenbehovet om det skulle samlas på ett optimalt sätt. Avrinningskoefficienten är här mer än 60% outnyttjat regnvatten. I ett flertal lyckade projekt har man samlat regnvatten i RWH system för senare användning. Människor i dessa områden saknar kranvatten eftersom detta område ej är täckt av vattenförsörjningsnätet. Detta gör att dessa människor har en positiv inställning till att ha RWH system..I den våta zonen, och då speciellt i Colombos stadsmiljö som denna studie handlar om, är situationen annorlunda. Här har de flesta invånare kranvatten. Det kommunala kranvattnet är högt subventionerat av regeringen vilket gör att kostnaden är låg för användarna samt ökar vattenkonsumtionen. Invånarna känner inget ansvar för vattenresurserna eftersom den gemena uppfattningen är att det är en evig källa. Majoriteten av hushållen ser inget skäl till att installera RWH på grund av den låga lönsamheten. Trots att det finns ett förordnande att det ska ingå ett RWH system, så följs inte detta. Saknande av uppföljningsplikt anges som orsak av vatten styrelsen. Kostnaden för att behandla och leverera vatten till invånarna är väldigt hög och är mycket energi krävande. Det finns ett behov av enorma investeringar för att rusta upp och bygga ut både vattenverken och vattennätet för att klara av att möta det växande invånarantalet i Colombo området. Ett annat problem är att 40% av hushållen i Colombo saknar avloppsanslutning. De leder sitt avloppsvatten direkt eller efter en septi-tank ut i jorden eller havet.Om medvetenheten kring dessa frågor ökar, samt att förhållandet mellan kranvattnets kostnad och RWH justeras med ändringar i subventionerna, kunde en hållbar lösning på vattensituationen med såväl ekonomiska som miljövinster ske.Resultatet av denna studie är att RWH får ses som ett komplement när det gäller vattenförsörjningen för hushållens del. Fokus bör istället ligga på industrier, sjukhus, skolor, kommunala byggnader och andra byggnader med stora vattenbehov och med de största möjligheterna att uppnå optimalt resultat.Studien visar också på en hållbar lösning på avloppshanteringen. Den visar DWWT och dess fördelar.The field study will investigate the importance of Rain Water Harvesting (RWH) as a water supply option. How can sustainable innovative solutions be developed to solve the water problem of Sri Lanka? Suffering from more than 30 years of civil war and damages after being struck by the tsunami 2004, Sri Lanka faces many challenges to recover and rebuilt the country. The access to water is the most important need for a civilization´s existence. In the dry zones of the island people suffer from long drought periods with dried up wells and no natural sources for water. However the rainfall during the monsoon, even in these areas, is more than enough to provide the water needs if properly collected, thus the run-off coefficient is more than 60%. Several projects with rain water harvesting in so called RWH systems have been implemented with success. Because these areas are not covered by the water supply net and therefore have no tap water, the people are very positive to having the RWH system. In the wet zones and especially in the urban environment of Colombo the situation is different. Here most of the people have treated pipe-borne tap water. The metered tap water is highly subsidized by the government which makes the cost low for the users and increases the water consumption. The citizens do not feel a responsibility to be careful with resources since the common opinion is that water is a never ending source. The majority of the households find no reasons for installing a RWH system because it´s low economic profits. Even if there is a legislation that demands all new buildings should have a RWH system not many households have installed these systems. However the cost to deliver and treat this water is very expensive for the government and demands a lot of energy. Huge investments need to be done in both the treatment plants and the pipe-line net to meet the growing population in Colombo area. Another problem is that 40% of the households today in Colombo have no sewage connection but lead their wastewater directly or after a septic tank into the ground or the sea. If the awareness regarding these concerns could be improved and the conditions between tap water costs and RWH be adjusted with changes in the subsidized system, a sustainable solution to the water situation in Colombo with both economic and environmental benefits could be found. The result from the case study is a recommendation about installing RWH as a complimentary source of water for the households. And investments in RWH systems should be focused to industries, hospitals, schools, municipal buildings and other public buildings with a high water demand and with the best possibilities for optimal results. Further the case study treats a sustainable solution to the sewage situation. It shows the Decentralized waste water treatment plant (DWWT) and its advantages.
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Vo, Le Phu. "Urban stormwater management in Vietnam." Title page, table of contents and abstract only, 2000. http://web4.library.adelaide.edu.au/theses/09ENV/09envl595.pdf.
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Zhang, Changyu. "A Study on Urban Water Reuse Management Modeling." Thesis, University of Waterloo, 2005. http://hdl.handle.net/10012/795.
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This research deals with urban water reuse planning and management modeling in the context of sustainable development. Rapid urbanization and population growth have presented a great challenge to urban water resources management. As water reuse may alleviate pollution loads and enhance water supply sources, water reuse is being recognized as a sustainable urban water management strategy and is becoming increasingly attractive in urban water resources management. An efficient water reuse planning and management model is of significance in promoting water reuse practices.
This thesis introduces an urban water reuse management and planning model using optimization methods with an emphasis on modeling uncertainty issues associated with water demand and water quality. The model is developed in conjunction with the overall urban water system with considerations over water supply, water demand, water distribution, water quality, and wastewater treatment and discharge. The objective of the model is to minimize the overall cost of the system subject to technological, societal and environmental constraints. Uncertainty issues associated with water demand and treatment quality are modeled by introducing stochastic programming methods, namely, two-stage stochastic recourse programming and chance-constraint programming.
The model is capable of identifying and evaluating water reuse in urban water systems to optimize the allocation of urban water resources with regard to uncertainties. It thus provides essential information in planning and managing urban water reuse systems towards a more sustainable urban water resources management. An application was presented in order to demonstrate the modeling process and to analyze the impact of uncertainties.
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Creese, Edward E. "Urban water systems, demand management and sustainable development." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2000. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape4/PQDD_0024/NQ51186.pdf.
Full textBooks on the topic "Urban and Industrial Water Management"
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Burning rivers: Revival of four urban-industrial rivers that caught on fire. Burlington, Ont., Canada: Aquatic Ecosystem Health and Management Society, 2010.
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Washington (State). Dept. of Ecology., ed. Industrial stormwater permits. [Olympia, Wash.]: Washington State Dept. of Ecology, 1995.
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Johnson, Keith. Response to comment: Industrial stormwater general permit. Olympia, WA: Washington State Dept. of Ecology, Water Quality Program, 2002.
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Johnson, Keith. Response to comment: Industrial stormwater general permit. Olympia, WA: Washington State Dept. of Ecology, 2002.
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Ogaram, D. A. Task no. 15: Critical sources of industrial and municipal pollution and investment proposals : final report. [Nairobi]: Lake Victoria Environmental Management Programme, 1995.
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Water for Texas Conference (21st 1986 Texas A & M University). Urban water resources management. College Station, Tex: Texas Water Resources Institute, 1986.
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Urban surface water management. New York: Wiley, 1989.
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Urban storm water management. Boca Raton, FL: CRC Press, 2011.
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Leif, Wolf, Burn Stewart, Morris Brian 1947-, and Universität Karlsruhe, eds. Urban water resources toolbox: Integrating groundwater into urban water management. London: IWA Pub., 2006.
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Karamouz, Mohammad. Urban water engineering and management. Boca Raton: Taylor & Francis, 2010.
Find full textBook chapters on the topic "Urban and Industrial Water Management"
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Annen, Gunther. "Water Management in Aging Industrial Districts." In Urban Water Infrastructure, 17–21. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-009-0559-7_3.
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Moya-Llamas, M. J., M. A. Bernal-Romero del Hombre Bueno, E. D. Vásquez-Rodríguez, A. Trapote, C. M. López-Ortiz, and D. Prats. "Combined System UASB+MBR for the Biological Elimination of Emerging Contaminants, Organic Matter and Nutrients in Urban Waste Water." In Lecture Notes in Management and Industrial Engineering, 145–58. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-92273-7_10.
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Molinos-Senante, María. "Urban Water Management." In Water Policy in Chile, 131–50. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-76702-4_9.
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Jat, Mahesh K., Deepak Khare, and Ashok K. Sharma. "Urban Water Management." In Sustainable Water Resources Management, 501–45. Reston, VA: American Society of Civil Engineers, 2017. http://dx.doi.org/10.1061/9780784414767.ch19.
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Renzetti, Steven. "Industrial and Commercial Water Demands." In Managing Urban Water Supply, 115–25. Dordrecht: Springer Netherlands, 2003. http://dx.doi.org/10.1007/978-94-017-0237-9_8.
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Burak, Selmin, and Hakan Mat. "Urban and Industrial Water Uses." In Water Resources of Turkey, 341–98. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-11729-0_11.
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Brown, Roger K. "Urban Water Resources Management." In Urban Water Infrastructure, 71–81. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-009-0559-7_8.
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Jarullah, Aysar T., Saba A. Gheni, Awad E. Mohammed, and Iqbal M. Mujtaba. "Industrial Three-Phase Oxidation Reactor for Wastewater Treatment." In Water Management, 231–62. First editor. | Boca Raton : Taylor & Francis, a CRC title, part of the Taylor & Francis imprint, a member of the Taylor & Francis Group, the academic division of T&F Informa, plc, [2019] | Series: Green chemistry and chemical engineering: CRC Press, 2018. http://dx.doi.org/10.1201/b22241-12.
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Loucks, Daniel P., and Eelco van Beek. "Urban Water Systems." In Water Resource Systems Planning and Management, 527–65. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-44234-1_12.
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Tsirogiannis, Ioannis L., Francesco Orsini, and Paulo Luz. "Water Management and Irrigation Systems." In Urban Agriculture, 129–46. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-57720-3_9.
Full textConference papers on the topic "Urban and Industrial Water Management"
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Lewis, Chad L., Todd P. Sax, and L. Donald Duke. "Estimating Pollutant Loading from Industrial Activities in an Urban Watershed." In Joint Conference on Water Resource Engineering and Water Resources Planning and Management 2000. Reston, VA: American Society of Civil Engineers, 2000. http://dx.doi.org/10.1061/40517(2000)184.
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Chen, Yushan, and Tao Duan. "A Model of Demand for Urban Reused Water." In 2009 International Conference on Information Management, Innovation Management and Industrial Engineering. IEEE, 2009. http://dx.doi.org/10.1109/iciii.2009.72.
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Ying-jie, Wang, Zheng Xiao-hua, Wei Qing-chao, and Zhao Yang. "Research on Urban Industrial Water-saving Evaluation Based on Extension Matter Element Model." In 2007 International Conference on Management Science and Engineering. IEEE, 2007. http://dx.doi.org/10.1109/icmse.2007.4422177.
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Li, Ding, Wang Dongmei, Ren Yongchang, and Liu Jingzhong. "Research on urban water supply pipe network accident locating based on network modeling." In 2013 6th International Conference on Information Management, Innovation Management and Industrial Engineering (ICIII). IEEE, 2013. http://dx.doi.org/10.1109/iciii.2013.6703530.
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Sholihah, Mar’atus, Maria Anityasari, and Diesta Iva Maftuhah. "Suitability assessment of the urban water management transition in the Indonesian context - A case study of Surabaya." In GREEN PROCESS, MATERIAL, AND ENERGY: A SUSTAINABLE SOLUTION FOR CLIMATE CHANGE: Proceedings of the 3rd International Conference on Engineering, Technology, and Industrial Application (ICETIA 2016). Author(s), 2017. http://dx.doi.org/10.1063/1.4985523.
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Roy, S., D. Pujari, and M. Saraswat. "ASSESSMENT OF URBAN ECOSYSTEMS: A STRUCTURED APPROACH TOWARDS BUILDING RESILIENCE TO CLIMATE CHANGE IN INDIAN TOWNS AND CITIES." In The 5th International Conference on Climate Change 2021 – (ICCC 2021). The International Institute of Knowledge Management, 2021. http://dx.doi.org/10.17501/2513258x.2021.5103.
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The fast-urbanizing Indian cities are grappling with rising ecological challenges. Pollution, water insecurity, urban heat, and flooding have increased the vulnerability of the urban population. There is a need to look at urban settlements as a functioning natural ecosystem delineated by administrative boundaries and to evaluate their health regularly through a comprehensive, easy to adopt, structured approach. This study aims to track and evaluate the ecosystem health of three different categories of urban settlements: a group of metropolitan wards, a growing peripheral city, and an emerging town, through adaption of Pressure- State-Response (PSR) framework developed by the Organisation for Economic Co-operation and Development (OECD)’. The methodology includes indices-driven change detection of ecosystem components and pressure points on the same, by using spatial and non-spatial data, developing an impact matrix, and prioritized eco plans for action. Increasing built-up surfaces in the peripheral city (11%) and the metropolitan wards (23%) show increased pressure on their ecosystem in the form of reducing pervious surfaces. Increasing water turbidity, land surface temperatures, and aerosol content in the air depict pressure hotspots requiring mitigative, restorative, and preventive action. A significant decrease observed in heavy vegetation in the metropolitan wards (58% in the last 5 years) and an increase in industrial activities and aerosol is observed in conjunction with increasing air temperatures and this points towards an impending change in its livability index due to anthropogenic pressures and climate change. The study concludes that a structured approach can aid in agile and sustainable management of our towns and cities and nature-based solutions provide an opportunity to restore the ecosystem balance. Keywords: Urban Assessment Nature-based solutions, Ecosystem Health, Urban Ecosystem, Urban management
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Chen, Chih-Hung, and Chih-Yu Chen. "From City-like Settlement to Industrial City: A Case of Urban Transformation in Huwei Township." In 24th ISUF 2017 - City and Territory in the Globalization Age. Valencia: Universitat Politècnica València, 2017. http://dx.doi.org/10.4995/isuf2017.2017.5923.
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From City-like Settlement to Industrial City: A Case of Urban Transformation in Huwei Township. Chih-Hung Chen¹, Chih-Yu Chen¹ ¹ Department of Urban Planning, National Cheng Kung University No.1, University Rd., East Dist., Tainan City 70101, Taiwan ROC E-mail: chihhungchen@mail.ncku.edu.tw Keywords (3-5): Industrial City, City-like Settlement, Morphological Process, Town-Plan Analysis, Sugar Refinery Conference topics and scale: City transformations City-like Settlement (German: Teilweise Stadtähnliche Siedlungen) (Schwarz, 1989; Sorre, 1952) plays an important role in the course of civilization, especially the development of industrial cities. Accordingly, this study utilizes Town-Plan Analysis (Conzen, 1960) to deconstruct the relationships between industrialization and settlement formation in order to illustrate the common origin of cities in Taiwan as a result of the emerging economy at the turn of the 20th century. The industrial city of Huwei, known as the “sugar city” with largest yields of cane sugar in Taiwan, had the largest-scale sugar refinery in pre-war East Asia (Williams, 1980). The city has grown and transformed with the factory during the four phases of morphological periods, which began at the establishment of the sugar refinery and worker housing in the middle of the fertile flooding plain in western Taiwan. The spatial arrangement was directed to operational and management efficiency, characterized by the simple grids and hierarchy of layout along the riverside. As the industry enlarged, the new urban core was planned to support the original settlement with shophouses accumulated in the small grids. Followed by postwar modernism (Schinz, 1989), the urban planning again extended the city boundary with larger and polygonal blocks. In the fourth phase, however, the sugar refinery downsized, leading to the conversion of the worker housing and the merging of the factory and the city that slowly brought to its present shape. The morphological process results in the concentric structure from the sugar refinery, providing valuable references for the preservation of the sugar industry townscape, and unveils the influence of industrialization as well as the special urban development pattern in Taiwan. References (100 words) Conzen, M. R. G. (1960) Alnwick, Northumberland: A Study in Town-Plan Analysis, 2nd edition (1969), (Institute of British Geographers, London). Schinz, A. (1989) Cities in China (Gebrüder Borntraeger, Berlin and Stuugart). Schwarz, G. (1959) Allgemeine Siedlungsgeographie (Walter de Gruyter, Berlin). Sorre, M. (1952) Les Fondements de la géographie humaine (Reliure inconnue, Paris). Williams, J. F. (1980) Sugar: the sweetener in Taiwan’s development. In Ronald, G. K. (ed.), China’s island frontier. Studies in the historical geography of Taiwan, pp. 219-251. (University of Hawaii Press and the Research Corporation of the University of Hawaii, Honolulu)
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Nuro, Aurel, and Bledar Murtaj. "LEVELS OF SOME PRIORITY SUBSTANCES ON ADRIATIC SEA, ALBANIA." In Fourth International Scientific Conference ITEMA Recent Advances in Information Technology, Tourism, Economics, Management and Agriculture. Association of Economists and Managers of the Balkans, Belgrade, Serbia, 2020. http://dx.doi.org/10.31410/itema.2020.277.
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This study evaluated levels for organochlorine pesticides (DDTs, HCHs, Heptachlors, Aldrins and Endosulfanes), their residues, polychlorinated biphenyls (PCB) and poly aromatic hydrocarbons (PAH) in water samples of Adriatic Sea, Albanian part. Water stations were chosen near the main river estuaries of Albania (Vjosa, Semani, Shkumbini, Erzeni, Mati and Buna rivers). These rivers have catchment areas that cover almost all Albania. First, agricultural, industrial and urban waste is transported in these rivers and after that they finished in Adriatic Sea. Water samples were analyzed for a five-year period from February 2015 to December 2019. Liquid-liquid extraction was used to isolate chlorinated pollutants and a florisil column was used for clean-up procedure. Analysis of organochlorine pesticides (according to Method EPA 8081B) and 7 PCB markers was realized using GC/ECD and RTX-5 capillary column. The PAHs were isolated by liquid-liquid extraction technique and after sample concentration qualitative and quantitative analyses were performed by the GC/FID technique. Organochlorine pollutants were detected for all stations of Adriatic Sea because of new arrivals by agricultural and industrial activity in river basins. The highest levels were found near Shkumbini and Semani estuaries due to impact Myzeqeja agricultural area. New arrivals from water irrigation and rainfall influence in found levels. Degradation products of pesticides and volatile PCBs were found at higher levels for all samples analyzed. The levels of some individual organochlorine pesticides were higher than EU and Albanian norms for Semani and Shkumbini rivers. Also, PAHs were found at higher levels for Semani River because of extracting-processing industry in Patos-Marinza area. Monitoring of organic pollutants in water of Adriatic Sea should be continuous because of its importance in fishing, tourism, recreation and Albania economy overall.
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Panicker, Philip K., and Amani Magid. "Microwave Plasma Gasification for the Restoration of Urban Rivers and Lakes, and the Elimination of Oceanic Garbage Patches." In ASME 2016 10th International Conference on Energy Sustainability collocated with the ASME 2016 Power Conference and the ASME 2016 14th International Conference on Fuel Cell Science, Engineering and Technology. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/es2016-59632.
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This review paper describes techniques proposed for applying microwave-induced plasma gasification (MIPG) for cleaning rivers, lakes and oceans of synthetic and organic waste pollutants by converting the waste materials into energy and useful raw materials. Rivers close to urban centers tend to get filled with man-made waste materials, such as plastics and paper, gradually forming floating masses that further trap biological materials and animals. In addition, sewage from residences and industries, as well as rainwater runoff pour into rivers and lakes carrying solid wastes into the water bodies. As a result, the water surfaces get covered with a stagnant, thick layer of synthetic and biological refuse which kill the fish, harm animals and birds, and breed disease-carrying vectors. Such destruction of water bodies is especially common in developing countries which lack the technology or the means to clean up the rivers. A terrible consequence of plastic and synthetic waste being dumped irresponsibly into the oceans is the presence of several large floating masses of garbage in the worlds’ oceans, formed by the action of gyres, or circulating ocean currents. In the Pacific Ocean, there are numerous debris fields that have been labeled the Great Pacific Garbage Patch. These patches contain whole plastic litters as well as smaller pieces of plastic, called microplastics, which are tiny fragments that were broken down by the action of waves. These waste products are ingested by animals, birds and fishes, causing death or harm. Some of the waste get washed ashore on beaches along with dead marine life. The best solution for eliminating all of the above waste management problems is by the application of MIPG systems to convert solid waste materials and contaminated water into syngas, organic fuels and raw materials. MIPG is the most efficient form of plasma gasification, which is able to process the most widest range of waste materials, while consuming only about a quarter of the energy released from the feedstock. MIPG systems can be scaled in size, power rating and waste-treatment capacity to match financial needs and waste processing requirements. MIPG systems can be set up in urban locations and on the shores of the waterbody, to filter and remove debris and contaminants and clean the water, while generating electric power to feed into the grid, and fuel or raw materials for industrial use. For eliminating the pelagic debris fields, the proposed design is to have ships fitted with waste collector and filtration systems that feeds the collected waste materials into a MIPG reactor, which converts the carbonaceous materials into syngas (H2 + CO). Some of the syngas made will be used to produce the electric power needed for running the plasma generator and onboard systems, while the remainder can be converted into methanol and other useful products through the Fischer-Tropsch process. This paper qualitatively describes the implementation schemes for the above processes, wherein MIPG technology will be used to clean up major waste problems affecting the earth’s water bodies and to convert the waste into energy and raw materials in a sustainable and environmentally friendly manner, while reducing the dependence on fossil fuels and the release of carbon dioxide and methane into the atmosphere.
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Jenewein, Oswald. "Post-Oil Environments: Responsive Design Strategies for Coastal City-Landscapes of Oil." In 2020 ACSA Fall Conference. ACSA Press, 2020. http://dx.doi.org/10.35483/acsa.aia.fallintercarbon.20.4.
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This paper summarizes parts of an interdisciplinary research and design project on climate adaptation strategies on the scale of architecture and the city within the case-study territory of Corpus Christi Bay in South Texas. In particular, this paper assesses the challenges of the emerging process of re-industrialization along the Texas Coast, highlighting significant impacts of industrial growth on the city landscape of Downtown Corpus Christi, which is located directly adjacent to the industrial oil port. A proposed masterplan is shown in this paper to demonstrate how responsive design strategies may benefit post-oil city-landscapes in the age of anthropogenic climate change. The emphasis is storm-water and flood mitigation, walkability, alternative transportation, and urban place-making in response to community input related to the United Nations Sustainable Development Goals (SDGs) and the AIA Framework for Designing for Equitable Communities. Methodologically, this project builds upon a mixed-methods approach. It includes qualitative and quantitative data gathered through Participatory Action Research, a successful tool to connect the research team and students to local communities, stakeholders, and constituents. The paper suggests that this era of re-industrialization needs to be seen as a transformative process that enables the aging city landscape to adapt to both changing ecological conditions and the time after this late oil boom. Urban identity, socio-economic diversity, and healthy conditions for urban ecosystems are essential parameters to inform the development of comprehensive strategies for the built environment. The responsive design strategies shown in this paper pro- pose the implementation of an infrastructural landscape addressing these challenges. The central element of the master plan is a canal that serves multiple purposes, including disaster preparation and response infrastructure, stormwater management, and alternative transportation for inner-city and city-to-city connections, has been developed to adapt Downtown Corpus Christi to the projected ecological changes.
Reports on the topic "Urban and Industrial Water Management"
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Just, Richard E., Eithan Hochman, and Sinaia Netanyahu. Problems and Prospects in the Political Economy of Trans-Boundary Water Issues. United States Department of Agriculture, February 2000. http://dx.doi.org/10.32747/2000.7573997.bard.
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The objective of this research was to develop and apply a conceptual framework for evaluating the potential of trans-boundary bargaining with respect to water resource sharing. The research accomplished this objective by developing a framework for trans-boundary bargaining, identifying opportunities for application, and illustrating the potential benefits that can be gained thereby. Specifically, we have accomplished the following: - Developed a framework to measure the potential for improving economic efficiency considering issues of political feasibility and sustainability that are crucial in trans-boundary cooperation. - Used both cooperative and non-cooperative game theory to assess feasible coalitions among the parties involved and to model potential bargaining procedures. - Identified empirically alternative schemes of cooperation that both improve upon the economic efficiency of present water usage and appease all of the cooperating parties. - Estimated the potential short-run and long-run affects of water reallocation on the agricultural sector and used this information to understand potential strategies taken by the countries in bargaining processes. - Performed case studies in Israeli-Jordanian relations, the relationship of Israel to the Palestinian Authority, and cooperation on the Chesapeake Bay. - Published or have in process publication of a series of refereed journal articles. - Published a book which first develops the theoretical framework, then presents research results relating to the case studies, and finally draws implications for water cooperation issues generally. Background to the Topic The increase in water scarcity and decline in water quality that has resulted from increased agricultural, industrial, and urban demands raises questions regarding profitability of the agricultural sector under its present structure. The lack of efficient management has been underscored recently by consecutive years of drought in Israel and increased needs to clean up the Chesapeake Bay. Since agriculture in the Middle East (Chesapeake Bay) is both the main water user (polluter) and the low-value user (polluter), a reallocation of water use (pollution rights) away from agriculture is likely with further industrial and urban growth. Furthermore, the trans-boundary nature of water resources in the case of the Middle East and the Chesapeake Bay contributes to increased conflicts over the use of the resources and therefore requires a political economic approach. Major Conclusions, Solutions, Achievements and Implications Using game theory tools, we critically identify obstacles to cooperation. We identify potential gains from coordination on trans-boundary water policies and projects. We identify the conditions under which partial (versus grand) coalitions dominate in solving water quality disputes among riparian countries. We identify conditions under which linking water issues to unrelated disputes achieves gains in trans-boundary negotiations. We show that gains are likely only when unrelated issues satisfy certain characteristics. We find conditions for efficient water markets under price-determined and quantity-determined markets. We find water recycling and adoption of new technologies such as desalination can be part of the solution for alleviating water shortages locally and regionally but that timing is likely to be different than anticipated. These results have been disseminated through a wide variety of publications and oral presentations as well as through interaction with policymakers in both countries.
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Psaris, Alexander. Assessing Hydrologic and Water Quality Sensitivities to Precipitation Changes, Urban Growth and Land Management Using SWAT. Portland State University Library, January 2000. http://dx.doi.org/10.15760/etd.1782.
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Desiderati, Christopher. Carli Creek Regional Water Quality Project: Assessing Water Quality Improvement at an Urban Stormwater Constructed Wetland. Portland State University, 2022. http://dx.doi.org/10.15760/mem.78.
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Stormwater management is an ongoing challenge in the United States and the world at-large. As state and municipal agencies grapple with conflicting interests like encouraging land development, complying with permits to control stormwater discharges, “urban stream syndrome” effects, and charges to steward natural resources for the long-term, some agencies may turn to constructed wetlands (CWs) as aesthetically pleasing and functional natural analogs for attenuating pollution delivered by stormwater runoff to rivers and streams. Constructed wetlands retain pollutants via common physical, physicochemical, and biological principles such as settling, adsorption, or plant and algae uptake. The efficacy of constructed wetlands for pollutant attenuation varies depending on many factors such as flow rate, pollutant loading, maintenance practices, and design features. In 2018, the culmination of efforts by Clackamas Water Environment Services and others led to the opening of the Carli Creek Water Quality Project, a 15-acre constructed wetland adjacent to Carli Creek, a small, 3500-ft tributary of the Clackamas River in Clackamas County, OR. The combined creek and constructed wetland drain an industrialized, 438-acre, impervious catchment. The wetland consists of a linear series of a detention pond and three bioretention treatment cells, contributing a combined 1.8 acres of treatment area (a 1:243 ratio with the catchment) and 3.3 acre-feet of total runoff storage. In this study, raw pollutant concentrations in runoff were evaluated against International Stormwater BMP database benchmarks and Oregon Water Quality Criteria. Concentration and mass-based reductions were calculated for 10 specific pollutants and compared to daily precipitation totals from a nearby precipitation station. Mass-based reductions were generally higher for all pollutants, largely due to runoff volume reduction on the treatment terrace. Concentration-based reductions were highly variable, and suggested export of certain pollutants (e.g., ammonia), even when reporting on a mass-basis. Mass load reductions on the terrace for total dissolved solids, nitrate+nitrite, dissolved lead, and dissolved copper were 43.3 ± 10%, 41.9 ± 10%, 36.6 ± 13%, and 43.2 ± 16%, respectively. E. coli saw log-reductions ranging from -1.3 — 3.0 on the terrace, and -1.0 — 1.8 in the creek. Oregon Water Quality Criteria were consistently met at the two in-stream sites on Carli Creek for E. coli with one exception, and for dissolved cadmium, lead, zinc, and copper (with one exception for copper). However, dissolved total solids at the downstream Carli Creek site was above the Willamette River guidance value 100 mg/L roughly 71% of the time. The precipitation record during the study was useful for explaining certain pollutant reductions, as several mechanisms are driven by physical processes, however it was not definitive. The historic rain/snow/ice event in mid-February 2021 appeared to impact mass-based reductions for all metals. Qualitatively, precipitation seemed to have the largest effect on nutrient dynamics, specifically ammonia-nitrogen. Determining exact mechanisms of pollutant removals was outside the scope of this study. An improved flow record, more targeted storm sampling, or more comprehensive nutrient profiles could aid in answering important questions on dominant mechanisms of this new constructed wetland. This study is useful in establishing a framework and baseline for understanding this one-of-a-kind regional stormwater treatment project and pursuing further questions in the future.
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Vonk, Jaynie. Sustainable Water and Sanitation in Zambia: Impact evaluation of the 'Urban WASH' project. Oxfam GB, February 2021. http://dx.doi.org/10.21201/2021.7284.
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The ‘Urban WASH' project was implemented in George and Chawama compounds in Lusaka between July 2013 and June 2017 by Oxfam and Village Water Zambia. The project aimed to improve provision and sustainable management of WASH services by engaging citizens to hold duty bearers and service providers to account. Oxfam collaborated with local institutions on an array of activities, engaging stakeholders to create a conducive environment for service provision and improving capacities and practices. This Effectiveness Review evaluates the success of this project to increase the sustainability of water and sanitation systems and services. Using a quasi-experimental evaluation design, we assessed impact among households in the intervention communities and in a comparison community. We combined the household-level quantitative assessment with analysis of community-level qualitative Key Informant Interviews, carried out with relevant institutional representatives. Find out more by reading the full report now.
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Rao, Nitya, Sheetal Patil, Maitreyi Koduganti, Chandni Singh, Ashwin Mahalingam, Prathijna Poonacha, and Nishant Singh. Sowing Sustainable Cities: Lessons for Urban Agriculture Practices in India. Indian Institute for Human Settlements, 2023. http://dx.doi.org/10.24943/ssc12.2022.
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Despite growing interest and recognition of urban and peri-urban agriculture (UPA) as a nature- based solution, there is limited empirical evidence in countries like India on its role in reconfiguring goals on environmental functions (such as biodiversity, waste management, water recycling, micro-climate regulation, etc.) and social wellbeing (such as food and nutrition security, gender relations, work burdens, land tenure and community ties). A need to address this gap led to the ideation of the project ‘Urban and peri-urban agriculture as green infrastructures’ ( UPAGrI ). When UPAGrI started in 2019, the research on UPA in India was thin but growing. However, the practical experience of urban farming across Indian cities is thriving and diverse, built on decades of bottom-up experimentation. Within the landscape of our ever-changing cities, we found vibrant communities-of-practice sharing seeds and knowledge, engaged online influencers discussing composting and water reuse, and stories of farming becoming sites of multi-generational bonding and nutritional security. This compendium is a collection of 29 such innovative UPA practices from across the different cities in the country. These diverse case studies are loosely categorized into four themes: environment and sustainability; food, nutrition and livelihood; gender and subjective well-being; and urban policy and planning. Written mostly by practitioners themselves, the case studies collectively recognise and celebrate UPA innovations and practices, serving as a repository of lessons for peer-to-peer learning, and demonstrating how UPA can be one of the many solutions towards sustainable, liveable Indian cities.
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Rao, Nitya. Sowing Sustainable Cities: Lessons for Urban Agriculture Practices in India. Indian Institute for Human Settlements, 2023. http://dx.doi.org/10.24943/ssc12.2023.
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Despite growing interest and recognition of urban and peri-urban agriculture (UPA) as a nature- based solution, there is limited empirical evidence in countries like India on its role in reconfiguring goals on environmental functions (such as biodiversity, waste management, water recycling, micro-climate regulation, etc.) and social wellbeing (such as food and nutrition security, gender relations, work burdens, land tenure and community ties). A need to address this gap led to the ideation of the project ‘Urban and peri-urban agriculture as green infrastructures’ ( UPAGrI ). When UPAGrI started in 2019, the research on UPA in India was thin but growing. However, the practical experience of urban farming across Indian cities is thriving and diverse, built on decades of bottom-up experimentation. Within the landscape of our ever-changing cities, we found vibrant communities-of-practice sharing seeds and knowledge, engaged online influencers discussing composting and water reuse, and stories of farming becoming sites of multi-generational bonding and nutritional security. This compendium is a collection of 29 such innovative UPA practices from across the different cities in the country. These diverse case studies are loosely categorized into four themes: environment and sustainability; food, nutrition and livelihood; gender and subjective well-being; and urban policy and planning. Written mostly by practitioners themselves, the case studies collectively recognise and celebrate UPA innovations and practices, serving as a repository of lessons for peer-to-peer learning, and demonstrating how UPA can be one of the many solutions towards sustainable, liveable Indian cities.
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Shani, Uri, Lynn Dudley, Alon Ben-Gal, Menachem Moshelion, and Yajun Wu. Root Conductance, Root-soil Interface Water Potential, Water and Ion Channel Function, and Tissue Expression Profile as Affected by Environmental Conditions. United States Department of Agriculture, October 2007. http://dx.doi.org/10.32747/2007.7592119.bard.
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Constraints on water resources and the environment necessitate more efficient use of water. The key to efficient management is an understanding of the physical and physiological processes occurring in the soil-root hydraulic continuum.While both soil and plant leaf water potentials are well understood, modeled and measured, the root-soil interface where actual uptake processes occur has not been sufficiently studied. The water potential at the root-soil interface (yᵣₒₒₜ), determined by environmental conditions and by soil and plant hydraulic properties, serves as a boundary value in soil and plant uptake equations. In this work, we propose to 1) refine and implement a method for measuring yᵣₒₒₜ; 2) measure yᵣₒₒₜ, water uptake and root hydraulic conductivity for wild type tomato and Arabidopsis under varied q, K⁺, Na⁺ and Cl⁻ levels in the root zone; 3) verify the role of MIPs and ion channels response to q, K⁺ and Na⁺ levels in Arabidopsis and tomato; 4) study the relationships between yᵣₒₒₜ and root hydraulic conductivity for various crops representing important botanical and agricultural species, under conditions of varying soil types, water contents and salinity; and 5) integrate the above to water uptake term(s) to be implemented in models. We have made significant progress toward establishing the efficacy of the emittensiometer and on the molecular biology studies. We have added an additional method for measuring ψᵣₒₒₜ. High-frequency water application through the water source while the plant emerges and becomes established encourages roots to develop towards and into the water source itself. The yᵣₒₒₜ and yₛₒᵢₗ values reflected wetting and drying processes in the rhizosphere and in the bulk soil. Thus, yᵣₒₒₜ can be manipulated by changing irrigation level and frequency. An important and surprising finding resulting from the current research is the obtained yᵣₒₒₜ value. The yᵣₒₒₜ measured using the three different methods: emittensiometer, micro-tensiometer and MRI imaging in both sunflower, tomato and corn plants fell in the same range and were higher by one to three orders of magnitude from the values of -600 to -15,000 cm suggested in the literature. We have added additional information on the regulation of aquaporins and transporters at the transcript and protein levels, particularly under stress. Our preliminary results show that overexpression of one aquaporin gene in tomato dramatically increases its transpiration level (unpublished results). Based on this information, we started screening mutants for other aquaporin genes. During the feasibility testing year, we identified homozygous mutants for eight aquaporin genes, including six mutants for five of the PIP2 genes. Including the homozygous mutants directly available at the ABRC seed stock center, we now have mutants for 11 of the 19 aquaporin genes of interest. Currently, we are screening mutants for other aquaporin genes and ion transporter genes. Understanding plant water uptake under stress is essential for the further advancement of molecular plant stress tolerance work as well as for efficient use of water in agriculture. Virtually all of Israel’s agriculture and about 40% of US agriculture is made possible by irrigation. Both countries face increasing risk of water shortages as urban requirements grow. Both countries will have to find methods of protecting the soil resource while conserving water resources—goals that appear to be in direct conflict. The climate-plant-soil-water system is nonlinear with many feedback mechanisms. Conceptual plant uptake and growth models and mechanism-based computer-simulation models will be valuable tools in developing irrigation regimes and methods that maximize the efficiency of agricultural water. This proposal will contribute to the development of these models by providing critical information on water extraction by the plant that will result in improved predictions of both water requirements and crop yields. Plant water use and plant response to environmental conditions cannot possibly be understood by using the tools and language of a single scientific discipline. This proposal links the disciplines of soil physics and soil physical chemistry with plant physiology and molecular biology in order to correctly treat and understand the soil-plant interface in terms of integrated comprehension. Results from the project will contribute to a mechanistic understanding of the SPAC and will inspire continued multidisciplinary research.
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Minz, Dror, Stefan J. Green, Noa Sela, Yitzhak Hadar, Janet Jansson, and Steven Lindow. Soil and rhizosphere microbiome response to treated waste water irrigation. United States Department of Agriculture, January 2013. http://dx.doi.org/10.32747/2013.7598153.bard.
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Research objectives : Identify genetic potential and community structure of soil and rhizosphere microbial community structure as affected by treated wastewater (TWW) irrigation. This objective was achieved through the examination soil and rhizosphere microbial communities of plants irrigated with fresh water (FW) and TWW. Genomic DNA extracted from soil and rhizosphere samples (Minz laboratory) was processed for DNA-based shotgun metagenome sequencing (Green laboratory). High-throughput bioinformatics was performed to compare both taxonomic and functional gene (and pathway) differences between sample types (treatment and location). Identify metabolic pathways induced or repressed by TWW irrigation. To accomplish this objective, shotgun metatranscriptome (RNA-based) sequencing was performed. Expressed genes and pathways were compared to identify significantly differentially expressed features between rhizosphere communities of plants irrigated with FW and TWW. Identify microbial gene functions and pathways affected by TWW irrigation*. To accomplish this objective, we will perform a metaproteome comparison between rhizosphere communities of plants irrigated with FW and TWW and selected soil microbial activities. Integration and evaluation of microbial community function in relation to its structure and genetic potential, and to infer the in situ physiology and function of microbial communities in soil and rhizospere under FW and TWW irrigation regimes. This objective is ongoing due to the need for extensive bioinformatics analysis. As a result of the capabilities of the new PI, we have also been characterizing the transcriptome of the plant roots as affected by the TWW irrigation and comparing the function of the plants to that of the microbiome. *This original objective was not achieved in the course of this study due to technical issues, especially the need to replace the American PIs during the project. However, the fact we were able to analyze more than one plant system as a result of the abilities of the new American PI strengthened the power of the conclusions derived from studies for the 1ˢᵗ and 2ⁿᵈ objectives. Background: As the world population grows, more urban waste is discharged to the environment, and fresh water sources are being polluted. Developing and industrial countries are increasing the use of wastewater and treated wastewater (TWW) for agriculture practice, thus turning the waste product into a valuable resource. Wastewater supplies a year- round reliable source of nutrient-rich water. Despite continuing enhancements in TWW quality, TWW irrigation can still result in unexplained and undesirable effects on crops. In part, these undesirable effects may be attributed to, among other factors, to the effects of TWW on the plant microbiome. Previous studies, including our own, have presented the TWW effect on soil microbial activity and community composition. To the best of our knowledge, however, no comprehensive study yet has been conducted on the microbial population associated BARD Report - Project 4662 Page 2 of 16 BARD Report - Project 4662 Page 3 of 16 with plant roots irrigated with TWW – a critical information gap. In this work, we characterize the effect of TWW irrigation on root-associated microbial community structure and function by using the most innovative tools available in analyzing bacterial community- a combination of microbial marker gene amplicon sequencing, microbial shotunmetagenomics (DNA-based total community and gene content characterization), microbial metatranscriptomics (RNA-based total community and gene content characterization), and plant host transcriptome response. At the core of this research, a mesocosm experiment was conducted to study and characterize the effect of TWW irrigation on tomato and lettuce plants. A focus of this study was on the plant roots, their associated microbial communities, and on the functional activities of plant root-associated microbial communities. We have found that TWW irrigation changes both the soil and root microbial community composition, and that the shift in the plant root microbiome associated with different irrigation was as significant as the changes caused by the plant host or soil type. The change in microbial community structure was accompanied by changes in the microbial community-wide functional potential (i.e., gene content of the entire microbial community, as determined through shotgun metagenome sequencing). The relative abundance of many genes was significantly different in TWW irrigated root microbiome relative to FW-irrigated root microbial communities. For example, the relative abundance of genes encoding for transporters increased in TWW-irrigated roots increased relative to FW-irrigated roots. Similarly, the relative abundance of genes linked to potassium efflux, respiratory systems and nitrogen metabolism were elevated in TWW irrigated roots when compared to FW-irrigated roots. The increased relative abundance of denitrifying genes in TWW systems relative FW systems, suggests that TWW-irrigated roots are more anaerobic compare to FW irrigated root. These gene functional data are consistent with geochemical measurements made from these systems. Specifically, the TWW irrigated soils had higher pH, total organic compound (TOC), sodium, potassium and electric conductivity values in comparison to FW soils. Thus, the root microbiome genetic functional potential can be correlated with pH, TOC and EC values and these factors must take part in the shaping the root microbiome. The expressed functions, as found by the metatranscriptome analysis, revealed many genes that increase in TWW-irrigated plant root microbial population relative to those in the FW-irrigated plants. The most substantial (and significant) were sodium-proton antiporters and Na(+)-translocatingNADH-quinoneoxidoreductase (NQR). The latter protein uses the cell respiratory machinery to harness redox force and convert the energy for efflux of sodium. As the roots and their microbiomes are exposed to the same environmental conditions, it was previously hypothesized that understanding the soil and rhizospheremicrobiome response will shed light on natural processes in these niches. This study demonstrate how newly available tools can better define complex processes and their downstream consequences, such as irrigation with water from different qualities, and to identify primary cues sensed by the plant host irrigated with TWW. From an agricultural perspective, many common practices are complicated processes with many ‘moving parts’, and are hard to characterize and predict. Multiple edaphic and microbial factors are involved, and these can react to many environmental cues. These complex systems are in turn affected by plant growth and exudation, and associated features such as irrigation, fertilization and use of pesticides. However, the combination of shotgun metagenomics, microbial shotgun metatranscriptomics, plant transcriptomics, and physical measurement of soil characteristics provides a mechanism for integrating data from highly complex agricultural systems to eventually provide for plant physiological response prediction and monitoring. BARD Report
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Goswami, Amlanjyoti, Deepika Jha, Sudeshna Mitra, Sahil Sasidharan, Kaye Lushington, and Mukesh Yadav. Land Records Modernisation in India: Gujarat. Indian Institute for Human Settlements, 2021. http://dx.doi.org/10.24943/9788195489381.
Full textAbstract:
This work provides an institutional, legal and policy review of crucial aspects of land records modernisation systems in Gujarat. Recognising the significance of land and its management for the state economy, Gujarat was among the early states to computerise its land records and processes and integrate them. In 2009, the state introduced resurveys using modern technology, which resulted in promulgation of updated records in more than sixty percent of villages, before being paused in 2018. Apart from political leadership, administrative initiatives such as documenting procedures and operational guidelines, incentivising of regular progress and reporting, and regular capacity building helped the state in making a significant progress. Gujarat is among the most urbanised and industrialised states in the country, and this volume presents case studies on the state of land and property records in urban and industrial areas, and the attempts to modernise them.
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Friedman, Shmuel, Jon Wraith, and Dani Or. Geometrical Considerations and Interfacial Processes Affecting Electromagnetic Measurement of Soil Water Content by TDR and Remote Sensing Methods. United States Department of Agriculture, 2002. http://dx.doi.org/10.32747/2002.7580679.bard.
Full textAbstract:
Time Domain Reflectometry (TDR) and other in-situ and remote sensing dielectric methods for determining the soil water content had become standard in both research and practice in the last two decades. Limitations of existing dielectric methods in some soils, and introduction of new agricultural measurement devices or approaches based on soil dielectric properties mandate improved understanding of the relationship between the measured effective permittivity (dielectric constant) and the soil water content. Mounting evidence indicates that consideration must be given not only to the volume fractions of soil constituents, as most mixing models assume, but also to soil attributes and ambient temperature in order to reduce errors in interpreting measured effective permittivities. The major objective of the present research project was to investigate the effects of the soil geometrical attributes and interfacial processes (bound water) on the effective permittivity of the soil, and to develop a theoretical frame for improved, soil-specific effective permittivity- water content calibration curves, which are based on easily attainable soil properties. After initializing the experimental investigation of the effective permittivity - water content relationship, we realized that the first step for water content determination by the Time Domain Reflectometry (TDR) method, namely, the TDR measurement of the soil effective permittivity still requires standardization and improvement, and we also made more efforts than originally planned towards this objective. The findings of the BARD project, related to these two consequential steps involved in TDR measurement of the soil water content, are expected to improve the accuracy of soil water content determination by existing in-situ and remote sensing dielectric methods and to help evaluate new water content sensors based on soil electrical properties. A more precise water content determination is expected to result in reduced irrigation levels, a matter which is beneficial first to American and Israeli farmers, and also to hydrologists and environmentalists dealing with production and assessment of contamination hazards of this progressively more precious natural resource. The improved understanding of the way the soil geometrical attributes affect its effective permittivity is expected to contribute to our understanding and predicting capability of other, related soil transport properties such as electrical and thermal conductivity, and diffusion coefficients of solutes and gas molecules. In addition, to the originally planned research activities we also investigated other related problems and made many contributions of short and longer terms benefits. These efforts include: Developing a method and a special TDR probe for using TDR systems to determine also the soil's matric potential; Developing a methodology for utilizing the thermodielectric effect, namely, the variation of the soil's effective permittivity with temperature, to evaluate its specific surface area; Developing a simple method for characterizing particle shape by measuring the repose angle of a granular material avalanching in water; Measurements and characterization of the pore scale, saturation degree - dependent anisotropy factor for electrical and hydraulic conductivities; Studying the dielectric properties of cereal grains towards improved determination of their water content. A reliable evaluation of the soil textural attributes (e.g. the specific surface area mentioned above) and its water content is essential for intensive irrigation and fertilization processes and within extensive precision agriculture management. The findings of the present research project are expected to improve the determination of cereal grain water content by on-line dielectric methods. A precise evaluation of grain water content is essential for pricing and evaluation of drying-before-storage requirements, issues involving energy savings and commercial aspects of major economic importance to the American agriculture. The results and methodologies developed within the above mentioned side studies are expected to be beneficial to also other industrial and environmental practices requiring the water content determination and characterization of granular materials.