Networks for Factory Automation
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Do You Want To Know How To Generate Economical Savings For Your Boiling System?
Conclusion
Industries around the globe are looking for solutions that could have an impact on the resources needed to assuring continuous operation. More than 5.000 boilers worldwide are treated with Cetamine® because of its excellent protection against corrosion and the energy savings it generates continuously.
● Cetamine® helps improve the boiler performance.
● Energy and water consumption observe a deep decrease, which results in both economic and environmental benefits.
Do You Want To Know How To Generate Economical Savings For Your Boiling System?
Conclusion
Industries around the globe are looking for solutions that could have an impact on the resources needed to assuring continuous operation. More than 5.000 boilers worldwide are treated with Cetamine® because of its excellent protection against corrosion and the energy savings it generates continuously.
● Cetamine® helps improve the boiler performance.
● Energy and water consumption observe a deep decrease, which results in both economic and environmental benefits.
Energy Optimization Plan For Drinking Water And Sanitation Networks
Dear reader,
Compared to other processing industries, the water and wastewater industry faces a very special set of challenges. Water is not a commodity product but the source of all life. Plant operators have a responsibility not only to their communities, but to the environment as well. This requires ensuring water safety and complying with relevant regulations to make sure that current and future generations have access to safe and clean water. Additionally, plant operators have to continuously improve their processes to make them more efficient so that they can optimize costs without sacrificing treatment quality. Finding this balance between water safety and treatment costs is the primary focus of any plant operator in the industry. Add to this increasingly complex processes due to new regulations and new treatment targets and it’s easy to understand the challenges the water and wastewater industry is facing today. With decades of experience in this industry and close cooperation with our customers, we fully understand these challenges and have developed our portfolio of measurement instrumentation, services and solutions to answer these challenges. What sets us apart from most of our competitors is that we are a main instrumentation vendor, meaning that we cover all relevant measuring parameters for the safe and efficient treatment of water and wastewater. Our portfolio includes different measuring technologies so that we can always find the ideal solution for your challenges. This brochure presents a visual overview of the most relevant processes in the water and wastewater industry and guides you to select the instruments that best fit your needs. To make instrument selection easier, we have introduced our FLEX portfolio structure (see page 34). The products displayed in this brochure have a FLEX indicator that makes it easy to recognize to which part of our portfolio they belong. Learn more about FLEX selections on the last page of this brochure. If you want to know more about our complete portfolio for the water and wastewater industry, please visit the industry page on our website.
Energy Optimization Plan For Drinking Water And Sanitation Networks
Dear reader,
Compared to other processing industries, the water and wastewater industry faces a very special set of challenges. Water is not a commodity product but the source of all life. Plant operators have a responsibility not only to their communities, but to the environment as well. This requires ensuring water safety and complying with relevant regulations to make sure that current and future generations have access to safe and clean water. Additionally, plant operators have to continuously improve their processes to make them more efficient so that they can optimize costs without sacrificing treatment quality. Finding this balance between water safety and treatment costs is the primary focus of any plant operator in the industry. Add to this increasingly complex processes due to new regulations and new treatment targets and it’s easy to understand the challenges the water and wastewater industry is facing today. With decades of experience in this industry and close cooperation with our customers, we fully understand these challenges and have developed our portfolio of measurement instrumentation, services and solutions to answer these challenges. What sets us apart from most of our competitors is that we are a main instrumentation vendor, meaning that we cover all relevant measuring parameters for the safe and efficient treatment of water and wastewater. Our portfolio includes different measuring technologies so that we can always find the ideal solution for your challenges. This brochure presents a visual overview of the most relevant processes in the water and wastewater industry and guides you to select the instruments that best fit your needs. To make instrument selection easier, we have introduced our FLEX portfolio structure (see page 34). The products displayed in this brochure have a FLEX indicator that makes it easy to recognize to which part of our portfolio they belong. Learn more about FLEX selections on the last page of this brochure. If you want to know more about our complete portfolio for the water and wastewater industry, please visit the industry page on our website.
NFPA 13 Standard For Installation Of Sprinkler System
Standby Hose Stations Connected to Sprinkler Systems
• NFPA 13 allows small (1½ in.) and large (2½ in.) hose connections to be connected to fire sprinkler systems. Such connections are considered a part of the fire sprinkler system, not a standpipe system.
• The purpose of a standby hose connection is to provide the user with some type of fire protection without providing all of the full requirements of a standpipe system. Connecting the standby hose to the fire sprinkler system allows a small amount of water to be available for firefighting (typically 50– 250 gpm) without the full water supply of a standpipe system.
• There are two occupancies where standby hose connections are sometimes found: storage warehouses and assembly occupancies backstage.
NFPA 13 Standard For Installation Of Sprinkler System
Standby Hose Stations Connected to Sprinkler Systems
• NFPA 13 allows small (1½ in.) and large (2½ in.) hose connections to be connected to fire sprinkler systems. Such connections are considered a part of the fire sprinkler system, not a standpipe system.
• The purpose of a standby hose connection is to provide the user with some type of fire protection without providing all of the full requirements of a standpipe system. Connecting the standby hose to the fire sprinkler system allows a small amount of water to be available for firefighting (typically 50– 250 gpm) without the full water supply of a standpipe system.
• There are two occupancies where standby hose connections are sometimes found: storage warehouses and assembly occupancies backstage.
Distribution Advanced
Important Information about this Manual
Disclaimer This CEU training manual has been prepared to assist employees in the general awareness of the water distribution system and groundwater production system, complex pumping ideas, dangerous excavation techniques, water regulatory sampling, and dealing with often-complex procedures and requirements for safely handling hazardous and toxic materials. The scope of the material is quite large, requiring a major effort to bring it under control. Employee health and safety, as well as that of the public, depends upon the careful application of federal and state regulations and safe working procedures. This manual will cover general laws, regulations, required procedures, and work rules relating to water distribution and sampling. It should be noted, however, that federal and state regulations are an ongoing process and subject to change over time. For this reason, a list of resources and hyperlinks is provided to assist in obtaining the most up-to-date information on various subjects. You can find these on our website or in this manual. This manual is a guidance document for employees who are involved with water distribution, water quality, and pollution control. It is not designed to meet the full requirements of the United States Environmental Protection Agency (EPA) or the Department of Labor-Occupational Safety and Health Administration (OSHA) rules and regulations. This course manual will provide general guidance and should not be used as a preliminary basis for developing general water/wastewater sampling plans or water distribution safety plans or procedures. This document is not a detailed water/wastewater textbook or a comprehensive source book on water/wastewater/safety rules and regulations. Technical Learning College makes no warranty, guarantee, or representation as to the absolute correctness or appropriateness of the information in this manual and assumes no responsibility in connection with the implementation of this information. It cannot be assumed that this manual contains all measures and concepts required for specific conditions or circumstances. This document should be used for guidance and is not considered a legal document. Individuals who are responsible for water distribution, production, and/or sampling and the health and safety of workers at hazardous waste sites should obtain and comply with the most recent federal, state, and local regulations relevant to these sites and are urged to consult with OSHA, the EPA and other appropriate federal, state, and local agencies.
Distribution Advanced
Important Information about this Manual
Disclaimer This CEU training manual has been prepared to assist employees in the general awareness of the water distribution system and groundwater production system, complex pumping ideas, dangerous excavation techniques, water regulatory sampling, and dealing with often-complex procedures and requirements for safely handling hazardous and toxic materials. The scope of the material is quite large, requiring a major effort to bring it under control. Employee health and safety, as well as that of the public, depends upon the careful application of federal and state regulations and safe working procedures. This manual will cover general laws, regulations, required procedures, and work rules relating to water distribution and sampling. It should be noted, however, that federal and state regulations are an ongoing process and subject to change over time. For this reason, a list of resources and hyperlinks is provided to assist in obtaining the most up-to-date information on various subjects. You can find these on our website or in this manual. This manual is a guidance document for employees who are involved with water distribution, water quality, and pollution control. It is not designed to meet the full requirements of the United States Environmental Protection Agency (EPA) or the Department of Labor-Occupational Safety and Health Administration (OSHA) rules and regulations. This course manual will provide general guidance and should not be used as a preliminary basis for developing general water/wastewater sampling plans or water distribution safety plans or procedures. This document is not a detailed water/wastewater textbook or a comprehensive source book on water/wastewater/safety rules and regulations. Technical Learning College makes no warranty, guarantee, or representation as to the absolute correctness or appropriateness of the information in this manual and assumes no responsibility in connection with the implementation of this information. It cannot be assumed that this manual contains all measures and concepts required for specific conditions or circumstances. This document should be used for guidance and is not considered a legal document. Individuals who are responsible for water distribution, production, and/or sampling and the health and safety of workers at hazardous waste sites should obtain and comply with the most recent federal, state, and local regulations relevant to these sites and are urged to consult with OSHA, the EPA and other appropriate federal, state, and local agencies.
GIS-Based Non-Revenue Water Mapping And Analysis
Abstract
Water loss from water distribution network is a major concern to water utilities. Water utilities around the world are becoming more focused on adopting a proactive approach to managing water loss. The amount of lost water can be significant, reaching levels as high as 50% of production. AbuDhabi Distribution Company, the main distributor of potable water in the Emirate of Abu Dhabi, is widely paying attention to water losses and investing in their resources to reduce it to the acceptable level as per Abu Dhabi Emirate Regulation Entity. Water balance analysis is the most widely used method for quantifying water losses. Guidelines and standard procedures for performing water balance analysis is mainly provided as a best practice document by the International Water Association (IWA). Experience shows that successful implementation of this best practice depends to a large extent on the ability to efficiently collect and integrate data from various sources. These data sources include metered and un-metered consumption records, water supply data, and water network asset inventory. It will also require an understanding of various components contributing to the water loss. This paper illustrates the developing of a GIS-based method to facilitate identification of non-revenue water as part of water balance analysis procedure. The analysis integrates data from GIS asset, water
interface points’ record, Sector Measuring points data loggers’ system and Consumption records. The paper also compares the non-revenue water percentage in different years for selected sectors and highlights the areas with high percentage comparing with others and against the international average non-revenue water percentage. The analysis was conducted for Abu Dhabi Island.
GIS-Based Non-Revenue Water Mapping And Analysis
Abstract
Water loss from water distribution network is a major concern to water utilities. Water utilities around the world are becoming more focused on adopting a proactive approach to managing water loss. The amount of lost water can be significant, reaching levels as high as 50% of production. AbuDhabi Distribution Company, the main distributor of potable water in the Emirate of Abu Dhabi, is widely paying attention to water losses and investing in their resources to reduce it to the acceptable level as per Abu Dhabi Emirate Regulation Entity. Water balance analysis is the most widely used method for quantifying water losses. Guidelines and standard procedures for performing water balance analysis is mainly provided as a best practice document by the International Water Association (IWA). Experience shows that successful implementation of this best practice depends to a large extent on the ability to efficiently collect and integrate data from various sources. These data sources include metered and un-metered consumption records, water supply data, and water network asset inventory. It will also require an understanding of various components contributing to the water loss. This paper illustrates the developing of a GIS-based method to facilitate identification of non-revenue water as part of water balance analysis procedure. The analysis integrates data from GIS asset, water
interface points’ record, Sector Measuring points data loggers’ system and Consumption records. The paper also compares the non-revenue water percentage in different years for selected sectors and highlights the areas with high percentage comparing with others and against the international average non-revenue water percentage. The analysis was conducted for Abu Dhabi Island.
An Introduction to Water Distribution System Appurtenances
Abstract
This discussion covers the operation and maintenance of various types of valves.
It also addresses hydrant O&M, safety, and testing.
An Introduction to Water Distribution System Appurtenances
Abstract
This discussion covers the operation and maintenance of various types of valves.
It also addresses hydrant O&M, safety, and testing.
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