Transcript Slide 1

Chemical Oxygen Demand
Presentation By
Douglas Rittmann, Ph.D., P.E.
Water/Wastewater Consultant
To
CE 4153
On
April 18, 2006
General Considerations
* COD test allows measurement of a waste in terms of total quantity
required for oxidation to carbon dioxide and water
* The COD tests oxidizes organic compounds by the action of strong
oxidizing agents under acid conditions
* The amino nitrogen will be converted to ammonia nitrogen and organic
nitrogen will be converted to nitrates.
* Organic is converted to carbon dioxide and water regardless of the
biological assimilability of the substances. Ex: glucose & lignin are
both oxidized completely, hence, COD is higher than BOD.
Advantages and Disadvantages
* One of the limitations of COD is its inability to differentiate between
biologically oxidizable and biologically inert organic matter.
* It does not provide any evidence of the rate at which the biologically
active material would be stabilized under conditions in nature.
* Major advantage is the short time required for evaluation in 3 hours versus
5 days for the BOD test.
* COD data can be interpreted in terms of BOD values after sufficient
experience has been accumulated to establish reliable correlation factors.
History of COD Test
* Chemical oxidizing agents have long been used to measure the oxygen
demand of sewage and polluted waters.
* Potassium permanganate were used for many years, and the results were
referred to as oxygen consumed from Potassium Permanganate.
* Oxidation by potassium permanganate was highly variable due to strength
of oxidant and with respect too various types of compounds.
* Oxygen consumed values were always less than the 5-day BOD because
of the inability of permanganate to carry the oxidation to particular endpoint
* Potassium dichromate is the most practical oxidizing agent with a silver ion
catalyst in an acid state and refluxed at high temperatures to completely
oxidize organics to carbon dioxide and water.
Chemical Oxygen Demand by Dichromate
COD results are reported in mg/L of oxygen.
A 0.25 N dichromate solution is equivalent to 2 mg of oxygen.
An excess of oxidizing agent must be present to ensure that all organic
matter is completely oxidized.
Ferrous ammonium sulfate titrant is an excellent reducing agent
to measure the excess dichromate after oxidation.
6Fe++ + Cr2O7 + 14H+
6Fe3+ + 2Cr3+ + 7H2O
Blanks are required because extraneous organic matter is
impossible to exclude.
Indicator – Ferroin is an excellent indicator for dichromate reduced by ferrous
Calculations
COD (mg/L) = 8000 (blank titr.- sample titration) (norm. Fe(NH4)2(SO4)2)/
ml sample
Alternate Procedures: COD test is precise and accurate for samples with
A COD of 50 mg/L or greater. It is important in any modification that the
Volume of sample plus dichromate solution be maintained at 1:1 ratio.
If it is smaller, the oxidizing power of the solution will decrease, while
If it is larger, the blank consumption of dichromate becomes excessive
Inorganic Interferences
Chlorides can cause high results but eliminated by the addition of
mercuric sulfate prior to the addition of other reagents.
Nitrites and nitrates interference can be eliminated by sulfamic acid.
Ferrous and sulfides can interfere but are low in concentration.
New Manganese III COD HACH Method
Manganese III Method for COD
Virtually eliminates hazardous metals waste disposal
Concerned about mercury, chromium or silver in waste streams? With the new
Manganese III COD (chemical oxygen demand) Method, disposal of these
heavy metals wastes is virtually eliminated. The patented Manganese III COD
Reagent1 eliminates using characteristic heavy metal oxidizers, catalysts and
chloride removal agents used in traditional COD testing.
Hach researchers have applied many innovations used in the original
USEPAapproved2 micro COD system to develop a new method for monitoring
wastewater treatment processes. The Manganese III COD Method can be
used for: • Municipal and industrial wastewater• Municipal and industrial
process waters • Environmental monitoring • Food and beverage industry •
Pulp and paper industry • Manufacturing plants
Manganese III Method for COD
Simplifies COD analysis
In less than 90 minutes, up to 25 COD tests can be completed. Like Hach’s
reliable USEPA-approved Dichromate COD Method, the new Manganese III
COD Method relies on a closed reflux micro method, which is both easier
and less labor intensive than the open reflux macro method. Plus, analysts
at all skill levels can get accurate results with this new method.
The Manganese III COD System uses prepared reagents, a simplified
procedure, and reliable Hach equipment, including the COD Reactor and
a colorimeter or spectrophotometer. The new method also
includes a Vacuum Pretreatment Device (VPD) and patent-pending
Chloride Removal Cartridges, which eliminate the use of mercurycontaining reagents for sample chloride removal. After preparing
the samples, simply digest them in the COD Reactor for one hour.
Manganese III Method for COD
The Manganese III COD Reagent contains Manganese 3+, an oxidizer,
and concentrated sulfuric acid. The reagent does not contain metal
catalysts or mercuric sulfate. The Manganese III COD Reagent offers
several advantages when compared to open reflux COD testing:
• Provides a distinct color change for easy analysis
• Simplifies process control testing
• Minimizes handling and exposure to corrosive chemicals
• Virtually eliminates a hazardous metals waste stream and disposal costs
Application of COD Data
* Used extensively in analysis of industrial samples
* Used to determine losses in sewer systems
* Due to short time for analysis, errors can be corrected the same day
* BOD test with COD Test can determine toxic conditions more effectively
* COD test used widely for better operation of wastewater facility because of
its speed in analysis.