Real Time Monitoring for Effective and Sustainable Industrial wastewater
Treatment and Compliance
15 min COD analysis
• We would like to thank National Research Council and IRAP for making this visit possible
• From NRC in attendance are:• John McDougall
• Carole Morneau
• Andrew Bauder
COD and BOD
• The standard BOD test requires five days to complete - unable to provide continuous monitoring of organic load.
• BOD measures the oxygen consumption from biological matter in the wastewater
• COD measures the oxidizable organic mater in the wastewater
• COD is often used for BOD screening.
• Current regulated method requires the use of Mercury and Dichromate
• Biochemical Oxygen Demand (BOD) and Chemical Oxygen Demand (COD) are ubiquitous measurements of overall water quality.
Regulatory Requirements
• Determination of COD to measure organic matter in wastewater effluent is required under the EU Urban Waste Water Directive 91/271
• Mercury is to be prohibited for use within Sweden as of 2016• http://www.government.se/sb/d/11459/a/118550
• European Chemical Authority Helsinki (ECHA) has labeled Dichromate as a serious chemical of serious health concern.• Scheduled to be banned September 2017
Actions to Meet Regulatory Requirements• RWS-CIV
• Dutch MOE began testing & validating an alternate COD method to address regulatory challenges
• …from MANTECH
• KAPPALA Wastewater Association, Sweden. • Published “Invitation to Tender for the Provision of a Pre-Commercial Procurement of a
Mercury Free COD analysis method for Wastewater and Waste Products”• Funded By VINNOVA• MANTECH’s technology selected to develop and commercialize an alternate COD method for
municipal WWTP’s
• Ministry of the Environment and Climate Change (MOECC), Ontario Canada. • Have already released E3515 after a 20 month validation• http://www.mantech-inc.com/wp-content/uploads/2014/10/MOE-PeCOD-Method.pdf
What is the alternate COD method?
• PeCOD – Photoelectrochemical COD
• Patented sensor consists of a UV-activated TiO2 (titanium dioxide) photocatalyst
• Powerful oxidizing potential of TiO2 gives a true measure of COD
• COD analysis method of Ontario Ministry of Environment (Method E3515)
• COD analysis can now be done by any operations staff member
PeCOD Technology
• Uses a TiO2 sensor
• TiO2 is a well established, powerful and versatile photocatalyst (3.2 V)
• TiO2is illuminated with UV light, and becomes a powerful oxidant
• Oxidizes the organics in a sample, and directly measures the amount of oxidation
Load. Start. Done.
PeCOD®• FAST, ACCURATE and SAFE
Way to MEASURE COD!
• Complete Product Offering• Software
• Automation
• Multi-parameter
• At-Line
• On-Line
PeCOD® COD Analysis
Overcomes many of the problems encountered by existing COD
analysis methods
• Fastest available method – results in only 15 minutes
• Does not use dichromate or other hazardous reagents
• Can be used by all operations staff
• Excellent BOD screening tool
PeCOD® Applications
Municipal
• Incoming COD monitoring
• In-plant COD monitoring
• Wet weather events
• Discharge compliance
• Potable water analysis
Industrial
• In-plant COD monitoring
• Process optimization
• Discharge compliance
• Fine avoidance
Laboratory
• COD analysis
• Multi-parameter
• Speed and accuracy
• Safety of employees
What are the Challenges to Address?
1. To meet regulatory requirements that are to be implemented
2. Effective waster water treatment – requires effective monitoring
3. Optimize industrial waste water treatment
4. Promote sustainability, protect the environment and protect the public
Where is MANTECH NOW1. New innovation allows for quick and safe COD analysis2. Current development projects are applied to laboratory and municipal sites
What we would like to Investigate?1. Develop innovative technology for industrial applications
Why Work With MANTECH to Develop and Commercialize the COD Method for Industrial Applications
• Peace of mind• Fine Avoidance
• Protect the Public
• Protect the Environment
• Compliance
• Process optimization
Scatter plot of PeCOD COD (red range) and dichromate COD for treated effluent samples analyzed by Clean Harbours (waste treatment facility)
Industrial Waste Water Treatment – Clean Harbours
y = 1.7549x - 1880.3R² = 0.9296
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CrC
OD
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PeCOD (mg/L)
Pulp & Paper ExampleA Pulp and Paper company in Chile. After running the PeCOD for 12 months, it gave the ability to optimise the ClO2 usage
This resulted in savings of US$6,341/dayWHY?1. Lower reagent consumption2. Lower amount of organics to treat3. Energy efficiency Gains
• The initial investment was justified through effective compliance and improving the health & safety of users.
• In addition, has resulted in process optimization with financial savings >US$2M/year!
“We moved from the COD vials to the PeCOD® primarily because it allowed us to run our process more efficiently and further
adjustments to our process could be made up to ten times a day. With the COD vials, only 3 or 4 adjustments could be made. This
increase in efficiency and turnaround time in sample analysis has easily paid for the system, not to mention the added benefit that we're no longer using carcinogenic chemicals to test for COD. We
have also seen a reduction in cost of consumables and waste disposal.”
Mark Westhorpe, Analytical Shift Leader, Vertellus Specialty Materials based in the United Kingdom.
Quotation from Metals Refiner
The future……
Opportunities exist for collaboration with
• Academia
• Consulting Engineers
• Mining Companies
• Chemical/Petrochemical Companies
• Pulp and Paper
• Industrial Wastewater treatment company providers