Water & Wastewater Treatment Magazine
Issue link: https://fhpublishing.uberflip.com/i/944532
28 | MARCH 2018 | WWT | www.wwtonline.co.uk land around rivers. Removing TIC is a straightforward process. It is achieved by adding acid to the water sample and purging inert gas free of carbon dioxide. All carbonates are then converted to carbon dioxide and vented from the sample chamber. Q: In brief terms, how does TOC analysis work? A: TOC analysis can be broken up into three parts; sampling, oxidation and detection. TOC analyses are conducted using a specially calibrated instrument called TOC analysers. Sampling: in order to obtain the best readings from water samples, the instrument used should have automatic sampling, acidification and sparging for TOC analysis. Devices are also should have automatic dilution capability, and autocalibration to increase reproducibility and sample throughput. Oxidation: to determine TOC levels in a water sample, the organic carbons must be oxidised. There are several methods to achieve this, using different types of equipment, which will be discussed in the following section. Detection: during oxidation, gases are released which are detected by specially designed sensors, which vary depending on what instrument and scientists a good idea of the condition and state of the water they are testing. What really concerns scientists is that the contaminants mentioned can interact with one another, encourage growth of microorganisms or even become toxic for humans and animals. Discharging contaminated water into the ecosystem can have devastating consequences in the short and long term conditions of our ecosystem. Q: Can you provide any additional examples of TOC in action? A: In drinking water, organic carbon reacts with chemicals used for disinfection such as chlorine. This can form disinfection byproducts which can be carcinogenic in their nature. Identifying and reducing organic carbon prior to disinfection can decrease the chance of public exposure to dangerous byproducts. Another application is in power plants. When used in nuclear power stations, or hydroelectric plants, TOC instruments are used to identify potentially corrosive compounds to prevent damage to expensive equipment. A third example is among electronics manufacturers. Ultra-purified water is used for manufacturing microprocessors and computer chips. As processors and circuits minituraise, any water used must be kept clean and free of debris to stop microscopic scrapes and damage occurring. Q: What is the role of TIC in wastewater? A: Before we are able to measure TOC in wastewater, Total Inorganic Carbon (TIC) must be removed. TIC may be present in significant quantities. Sources of inorganic carbon include dissolved carbon dioxide from bedrock, and detritus from the erosion of the The Knowledge Getting to Grips with… Total Organic Carbon method you are using. Results are available and recorded by the technician overseeing the experiment. Q: What type of equip- ment is used to meas- ure TOC? A: There are two distinct types of instrument used to measure TOC. Both have different applications and are thus appropriate for specific situations. They're distinct in the way they prepare water samples. Combustion analysers: These instruments measure TOC within a water sample a er acidification by combusting it at 850°C with a catalyst. The sample is fully oxidised and all carbon is converted to carbon dioxide. This gas is identified by Electrochemical Detector (ECD) or for lower detection limits, a Non-Dispersive Infra-Red detector (NDIR). Wet chemical: O en referred to the UV oxidation/sodium persulfate method, this method involves instrumentation that adds sodium persulphate to the sample and then then blasts it with UV light. This forms hydroxyl radicals and organic compounds are then converted to carbon dioxide. CO2 is detected by using the aforementioned NDIR. Q: Which method is the best? A: As with most things, it depends on what you are trying to achieve. The combustion method has the capability to oxidise solid particles in the sample, so it is good for dirty samples like those found in heavily polluted areas like the Ganges in India, or the Thames in London. The wet chemical method is better suited to testing clean water samples, so for things such as testing drinking water, or the water used in electronics manufacturing. This is because it has a lower overall detection limit for TOC and can also be more reproducible. CONCLUSION TOC is rarely talked about in our society, but it has an extremely important role in the way we deal with water. TOC gives an easy, fast and inexpensive way of screening water samples for contaminants. Alternative tests to TOC are either much more expensive and/or significantly slower. This would lead to increased costs for treatment or a slower response to contamination events which may lead to contaminated wastewater being distributed. Q&A The vario TOC Cube is an example of a combustion analyser The acquray analyser uses a chemical oxidation process