logging in or signing up North Battleford General funnyside Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 63 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: December 30, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Requirements to produce high quality water: Requirements to produce high quality water Stephen Stanley, Ph.D., P.Eng. EPCOR Water ServicesCapable Plant Model: Capable Plant Model High Quality Treated Water Operation (process control) Capable Plant Administration Design MaintenanceCapable Plant: Capable Plant A capable plant means if it is managed, operated and maintained properly, the plant has the required infrastructure to meet all requirements Criteria for capable plant largely dependent on regulation Capable Plant: Capable Plant Requirements constantly changing as new information becomes available turbidity requirements have gone from 5 NTU to 1 NTU to 0.5 NTU and now proposed to go to 0.3 NTU Requirements for a capable plant also dependent on raw water source ground water - disinfection surface waters - filtration and disinfectionCapable Plant - Giardia Example: Capable Plant - Giardia Example Capable Plant Multi-barrier Approach: Capable Plant Multi-barrier Approach Water treatment uses the concept of multi-barriers to meet treatment requirements a number of treatment processes which are each barriers for contaminants Giardia example for 4 log removal Clarification 0.5 log removal Filtration 2.0 log removal Disinfection 1.5 log removalCapable Plant - Cryptosporidium: Capable Plant - Cryptosporidium One of the greatest challenges facing the water industry Regulations just starting (US EPA and Canada) Resistant to chlorine (loss of major barrier) For conventional treatment must rely on particle removal UV and ozone disinfection effective Capable Plant - Regulation: Capable Plant - Regulation Regulations generally based on the concept of reducing the risk associated with water to an “acceptable” level other factors include available technology and economics Poorer standards result in greater risk that public health can compromised typically event related (when plant challenged) Capable Plant - Summary: Capable Plant - Summary Requirements of a capable plant dependent on regulation Also dependent on raw water source Capability of plant restricted to design flow rates A capable plant only provides the ability to produce high quality water if proper administration, maintenance and operational systems are in placeAdminstration: Adminstration Relates to having administrative policies, and staffing and funding requirements needed to produce high quality water Requires a commitment from senior administration to produce high quality water Needs quality assurance and quality control programs to ensure high quality water Must ensure adequate staffing and funding are available Design: Design Design of a treatment facility must not only meet requirements for the capable plant but must also consider operational and maintenance realities Design should also consider technical expertise requiredMaintenance: Maintenance To make a capable plant sustainable, regular maintenance must occur Maintenance activities must consider operational constraints and must be planned accordingly For critical systems redundancy may be requiredOperations - Process Control: Operations - Process Control Water treatment of surface waters, especially those treating river waters is a very dynamic process raw water quality may vary from a turbidity of 1 NTU to over 1000 NTU water demand may vary by 3 times Treatment plants must constantly vary operating conditions (chemical doses, flows, etc.) Operations - Process Control: Operations - Process Control For process control require: a measure of the state of the system comparison of the current state to the desired state an action (for example a change in chemical dose) to return the system to the desired state Challenges in Process Control: Challenges in Process Control Multiple and conflicting objectives water quantity vs. water quality disinfection vs. disinfection by-products Multiple operating parameters must simultaneously adjust more than one chemical dose and operating conditionsChallenges in Process Control: Challenges in Process Control Long residence time in plant if treated water turbidity increases and requires change in coagulant dose at front of plant, can have 3 to 5 hours of water in the plant that must pass through before change will be noticed requires intermediate assessment of treatment process Challenges in Process Control: Challenges in Process Control No standard methods to determine proper chemical dosing must rely heavily on operator experience must ensure available tools are being used (jar tests)Operations - Process Control: Operations - Process Control Upsets can occur in water treatment Must have clearly defined emergency response plans Should have programs such as a boiled water notice in place Can not wait for illnessProduction of High Quality Water: Production of High Quality Water Requires not only a capable plant but proper administration, design, maintenance and operations Failure in any of these areas significantly increases the risk to public health The Challenge: The Challenge Requirements for the production of high quality of water is largely independent of the size of the community The complexity of the treatment system is largely dependent on the quality of the raw water The challenge is implementing the requirements in smaller communities You do not have the permission to view this presentation. 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North Battleford General funnyside Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 63 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: December 30, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Requirements to produce high quality water: Requirements to produce high quality water Stephen Stanley, Ph.D., P.Eng. EPCOR Water ServicesCapable Plant Model: Capable Plant Model High Quality Treated Water Operation (process control) Capable Plant Administration Design MaintenanceCapable Plant: Capable Plant A capable plant means if it is managed, operated and maintained properly, the plant has the required infrastructure to meet all requirements Criteria for capable plant largely dependent on regulation Capable Plant: Capable Plant Requirements constantly changing as new information becomes available turbidity requirements have gone from 5 NTU to 1 NTU to 0.5 NTU and now proposed to go to 0.3 NTU Requirements for a capable plant also dependent on raw water source ground water - disinfection surface waters - filtration and disinfectionCapable Plant - Giardia Example: Capable Plant - Giardia Example Capable Plant Multi-barrier Approach: Capable Plant Multi-barrier Approach Water treatment uses the concept of multi-barriers to meet treatment requirements a number of treatment processes which are each barriers for contaminants Giardia example for 4 log removal Clarification 0.5 log removal Filtration 2.0 log removal Disinfection 1.5 log removalCapable Plant - Cryptosporidium: Capable Plant - Cryptosporidium One of the greatest challenges facing the water industry Regulations just starting (US EPA and Canada) Resistant to chlorine (loss of major barrier) For conventional treatment must rely on particle removal UV and ozone disinfection effective Capable Plant - Regulation: Capable Plant - Regulation Regulations generally based on the concept of reducing the risk associated with water to an “acceptable” level other factors include available technology and economics Poorer standards result in greater risk that public health can compromised typically event related (when plant challenged) Capable Plant - Summary: Capable Plant - Summary Requirements of a capable plant dependent on regulation Also dependent on raw water source Capability of plant restricted to design flow rates A capable plant only provides the ability to produce high quality water if proper administration, maintenance and operational systems are in placeAdminstration: Adminstration Relates to having administrative policies, and staffing and funding requirements needed to produce high quality water Requires a commitment from senior administration to produce high quality water Needs quality assurance and quality control programs to ensure high quality water Must ensure adequate staffing and funding are available Design: Design Design of a treatment facility must not only meet requirements for the capable plant but must also consider operational and maintenance realities Design should also consider technical expertise requiredMaintenance: Maintenance To make a capable plant sustainable, regular maintenance must occur Maintenance activities must consider operational constraints and must be planned accordingly For critical systems redundancy may be requiredOperations - Process Control: Operations - Process Control Water treatment of surface waters, especially those treating river waters is a very dynamic process raw water quality may vary from a turbidity of 1 NTU to over 1000 NTU water demand may vary by 3 times Treatment plants must constantly vary operating conditions (chemical doses, flows, etc.) Operations - Process Control: Operations - Process Control For process control require: a measure of the state of the system comparison of the current state to the desired state an action (for example a change in chemical dose) to return the system to the desired state Challenges in Process Control: Challenges in Process Control Multiple and conflicting objectives water quantity vs. water quality disinfection vs. disinfection by-products Multiple operating parameters must simultaneously adjust more than one chemical dose and operating conditionsChallenges in Process Control: Challenges in Process Control Long residence time in plant if treated water turbidity increases and requires change in coagulant dose at front of plant, can have 3 to 5 hours of water in the plant that must pass through before change will be noticed requires intermediate assessment of treatment process Challenges in Process Control: Challenges in Process Control No standard methods to determine proper chemical dosing must rely heavily on operator experience must ensure available tools are being used (jar tests)Operations - Process Control: Operations - Process Control Upsets can occur in water treatment Must have clearly defined emergency response plans Should have programs such as a boiled water notice in place Can not wait for illnessProduction of High Quality Water: Production of High Quality Water Requires not only a capable plant but proper administration, design, maintenance and operations Failure in any of these areas significantly increases the risk to public health The Challenge: The Challenge Requirements for the production of high quality of water is largely independent of the size of the community The complexity of the treatment system is largely dependent on the quality of the raw water The challenge is implementing the requirements in smaller communities