Water Management
Optimisation Of Water Treatment Plants
Views : 20
Usually dispatched in 2 to 3 days
Usually dispatched in 2 to 3 days
Category:
Water Management
Only logged in customers who have purchased this product may leave a review.
Related books
Mining Big Data For Sustainable Water Management
Abstract
The power of advanced analytics is substantial. Massive scales of big, structured and unstructured data relieve unthinkable patterns and help us redefine economic models, solve operational inefficiencies and optimize costs. The water utilities could substantially benefit from the data available from new digital assets and smart technologies. Many are facing damaged and failing infrastructure and lack of financial resources for makeovers. However, Industry 4.0 and Digitalization open new fronts and bring new assets such as real-time monitoring of critical systems via IoT and sensors, advanced metering and predictive analytics to improve customer billing, remote data collection systems at pumping stations and water storage facilities and many more. The power of “digital twin”, as a virtual replica of a physical asset, and ways of enriching the traditional data sources with open source data increase considerably the available intelligence for more sophisticated correlation, linkages and insights. This study reviews the core values of big data, advanced analytics, smart technologies and its application in water resources management and it gives concrete recommendation how to accelerate the adoption of use of Big Data by leveraging on technology and innovation.
Mining Big Data For Sustainable Water Management
Abstract
The power of advanced analytics is substantial. Massive scales of big, structured and unstructured data relieve unthinkable patterns and help us redefine economic models, solve operational inefficiencies and optimize costs. The water utilities could substantially benefit from the data available from new digital assets and smart technologies. Many are facing damaged and failing infrastructure and lack of financial resources for makeovers. However, Industry 4.0 and Digitalization open new fronts and bring new assets such as real-time monitoring of critical systems via IoT and sensors, advanced metering and predictive analytics to improve customer billing, remote data collection systems at pumping stations and water storage facilities and many more. The power of “digital twin”, as a virtual replica of a physical asset, and ways of enriching the traditional data sources with open source data increase considerably the available intelligence for more sophisticated correlation, linkages and insights. This study reviews the core values of big data, advanced analytics, smart technologies and its application in water resources management and it gives concrete recommendation how to accelerate the adoption of use of Big Data by leveraging on technology and innovation.
Industrial Wastewater Management Problems in Borg El-Arab New Industrial City.
ABSTRACT:
Borg El-Arab is a new industrial city within Alexandria containing around 1200 factory distributed within four industrial zones. Since 2008, the sanitary system including the treatment plant of Borg El-Arab was handed to Alexandria Sanitary Drainage Company (ASDCO) for management. From the preliminary survey it was found that all factory's effluents were not complying with the limits of Law 93 for year 1962 and its presidential decree 44 for year 2000. They dispose their raw wastewater directly into the sewerage system, which creates a chronic street flooding problems all over the industrial zones. As well as affecting the quality of the old treatment plant influent located at the east of the city and the newly instructed tertiary treatment plant. These factories did not construct effective industrial effluent treatment systems for their wastes, which were supposed to be constructed before getting the permission to start the industrial activity and production. Another problem was the lack of effective industrial effluent inspection, monitoring, and weakness of the legal power and action against non-complying industries. Finally, there was no technical assistance system. Alexandria Sanitary Drainage Company carried out a Management system to solve these problems through: 1) Industrial survey for technical assistance to apply pollution prevention concepts; 2) Periodical sampling and monitoring program based on severity of the industry; 3) Compliance evaluation to take step by step action for non-complying factories after re[1]assisting non-complying factories to reconcile their situation, this system applies for already existing industries. For new industries it is essential to apply an additional step which is that the Municipality should get our permission before giving license to industries to start practicing their activity.; 4) Applying a cost recovery program. According to applying these steps problems have decreased and number of complying industries has increased. Under these circumstances we would like to stress on the importance of applying On-line Monitoring systems to assure effective control of industrial effluent quality 24/7.
Industrial Wastewater Management Problems in Borg El-Arab New Industrial City.
ABSTRACT:
Borg El-Arab is a new industrial city within Alexandria containing around 1200 factory distributed within four industrial zones. Since 2008, the sanitary system including the treatment plant of Borg El-Arab was handed to Alexandria Sanitary Drainage Company (ASDCO) for management. From the preliminary survey it was found that all factory's effluents were not complying with the limits of Law 93 for year 1962 and its presidential decree 44 for year 2000. They dispose their raw wastewater directly into the sewerage system, which creates a chronic street flooding problems all over the industrial zones. As well as affecting the quality of the old treatment plant influent located at the east of the city and the newly instructed tertiary treatment plant. These factories did not construct effective industrial effluent treatment systems for their wastes, which were supposed to be constructed before getting the permission to start the industrial activity and production. Another problem was the lack of effective industrial effluent inspection, monitoring, and weakness of the legal power and action against non-complying industries. Finally, there was no technical assistance system. Alexandria Sanitary Drainage Company carried out a Management system to solve these problems through: 1) Industrial survey for technical assistance to apply pollution prevention concepts; 2) Periodical sampling and monitoring program based on severity of the industry; 3) Compliance evaluation to take step by step action for non-complying factories after re[1]assisting non-complying factories to reconcile their situation, this system applies for already existing industries. For new industries it is essential to apply an additional step which is that the Municipality should get our permission before giving license to industries to start practicing their activity.; 4) Applying a cost recovery program. According to applying these steps problems have decreased and number of complying industries has increased. Under these circumstances we would like to stress on the importance of applying On-line Monitoring systems to assure effective control of industrial effluent quality 24/7.
Management Of Brine Discharges To Coastal Waters Recommendations Of A Science Advisory Panel
Introduction:
Interest in desalination is high in California, where increasing populations and limitations to existing water supplies have spurred development of alternative sources derived from seawater desalination and reclamation of wastewater and groundwater. A few seawater desalination facilities are currently in operation in California (Table 1-1), but proposals for over 20 additional coastal facilities are under consideration (Cooley et al. 2006) with a potential total capacity approaching 500 mgd in 2030 (Bleninger and Jirka 2010). These include plants in Carlsbad, Camp Pendleton, Huntington Beach, Dana Point, Long Beach, El Segundo, Playa Del Rey, Oceano, Cambria, Marina, Sand City, Ocean View Plaza, Santa Cruz, Moss Landing, Montara, San Rafael, East Bay, and Crockett, with the largest of these proposed plants located in Southern California. The development and operation of these additional facilities will greatly increase the amount of desalination capacity and associated concentrate production in California.
Management Of Brine Discharges To Coastal Waters Recommendations Of A Science Advisory Panel
Introduction:
Interest in desalination is high in California, where increasing populations and limitations to existing water supplies have spurred development of alternative sources derived from seawater desalination and reclamation of wastewater and groundwater. A few seawater desalination facilities are currently in operation in California (Table 1-1), but proposals for over 20 additional coastal facilities are under consideration (Cooley et al. 2006) with a potential total capacity approaching 500 mgd in 2030 (Bleninger and Jirka 2010). These include plants in Carlsbad, Camp Pendleton, Huntington Beach, Dana Point, Long Beach, El Segundo, Playa Del Rey, Oceano, Cambria, Marina, Sand City, Ocean View Plaza, Santa Cruz, Moss Landing, Montara, San Rafael, East Bay, and Crockett, with the largest of these proposed plants located in Southern California. The development and operation of these additional facilities will greatly increase the amount of desalination capacity and associated concentrate production in California.
RO Reject Water Management Techniques
Abstract
To meet with the growing water requirements, along with the waste water from municipal sewage treatment plant, it is critical to consider the reuse of waste water from the industries wherever possible. In the Indian context, this has already been started in some of the big industries especially in metro cities and it must be implemented at all level possible industries. Ultrafiltration (UF), reverse osmosis (RO) and a membrane bioreactor (MBR) will all be an integral part of this. From last five decades, the variation for increase in population and decrease in available clean water is noticeable. Waste water reuse is not only the requirement but it also provides several eco-friendly benefits.
RO Reject Water Management Techniques
Abstract
To meet with the growing water requirements, along with the waste water from municipal sewage treatment plant, it is critical to consider the reuse of waste water from the industries wherever possible. In the Indian context, this has already been started in some of the big industries especially in metro cities and it must be implemented at all level possible industries. Ultrafiltration (UF), reverse osmosis (RO) and a membrane bioreactor (MBR) will all be an integral part of this. From last five decades, the variation for increase in population and decrease in available clean water is noticeable. Waste water reuse is not only the requirement but it also provides several eco-friendly benefits.
Handbook on Wastewater Management for Local Representatives
Introduction
Local officials play an integral part in the administration of wastewater treatment plants within their com[1]munities. Wastewater treatment plants are a critical capital asset and as a local official it is your responsi[1]bility to understand the operations and management procedures associated with it. As public managers, local officials need the skills and tools to address problems that may arise at their community’s plants. Because wastewater may impede public health or the environment within a community, it is important that elected officials familiarize themselves with basic terminology and responsibilities relating to wastewater treatment plants. This handbook is designed to be a reference tool for local officials, public administrators, and managers. In addition to the basic treatment operations, this handbook will discuss the strategies to ensure compliance, funding, adequate training, and public education. This reference will also help public officials familiarize themselves with financial management tools, loan and grant assistance, as well as learn about capital improvement planning to enhance long term economic viability. The handbook is broken into different sections. Each section discusses important topics and subject mat[1]ters that will provide public officials with the basic information needed to understand how wastewater treat[1]ment plants operate. There are additional resources located at the end of each chapter for those who would like to learn more. In the appendices, topics such Advanced Evaluation Techniques, including the time value of money, are discussed in more detail, as well as sample forms for reporting and gathering information to properly manage their wastewater systems. In addition, this handbook has a comprehensive glossary of terms and glossary of financial terms.
Handbook on Wastewater Management for Local Representatives
Introduction
Local officials play an integral part in the administration of wastewater treatment plants within their com[1]munities. Wastewater treatment plants are a critical capital asset and as a local official it is your responsi[1]bility to understand the operations and management procedures associated with it. As public managers, local officials need the skills and tools to address problems that may arise at their community’s plants. Because wastewater may impede public health or the environment within a community, it is important that elected officials familiarize themselves with basic terminology and responsibilities relating to wastewater treatment plants. This handbook is designed to be a reference tool for local officials, public administrators, and managers. In addition to the basic treatment operations, this handbook will discuss the strategies to ensure compliance, funding, adequate training, and public education. This reference will also help public officials familiarize themselves with financial management tools, loan and grant assistance, as well as learn about capital improvement planning to enhance long term economic viability. The handbook is broken into different sections. Each section discusses important topics and subject mat[1]ters that will provide public officials with the basic information needed to understand how wastewater treat[1]ment plants operate. There are additional resources located at the end of each chapter for those who would like to learn more. In the appendices, topics such Advanced Evaluation Techniques, including the time value of money, are discussed in more detail, as well as sample forms for reporting and gathering information to properly manage their wastewater systems. In addition, this handbook has a comprehensive glossary of terms and glossary of financial terms.
Effective Policies and Management of Water Supplies Utilizing Integrated Water Resources Management Frameworks in Saudi Arabia
• Most water challenges are political,economic,andsocial. If we can improve water governance using the integrated approach, we will get closer to a water-secure world.
• The purpose of the IWRM tools is to provide assistance in overcoming the largest obstacles to good water
governance.
• In an effort to encourage a move towards more sustainable approaches to water development and management, the World Summit on Sustainable Development (WSSD) in 2002 called for all
countries to craft the Integrated Water Resources Management (IWRM) and water efficiency strategies by the end of 2005.
• This was emphasized again by the UN-world summit in 2015.
Effective Policies and Management of Water Supplies Utilizing Integrated Water Resources Management Frameworks in Saudi Arabia
• Most water challenges are political,economic,andsocial. If we can improve water governance using the integrated approach, we will get closer to a water-secure world.
• The purpose of the IWRM tools is to provide assistance in overcoming the largest obstacles to good water
governance.
• In an effort to encourage a move towards more sustainable approaches to water development and management, the World Summit on Sustainable Development (WSSD) in 2002 called for all
countries to craft the Integrated Water Resources Management (IWRM) and water efficiency strategies by the end of 2005.
• This was emphasized again by the UN-world summit in 2015.
Reviews
There are no reviews yet.