Wastewater Analysis White Papers & Case Studies

  1. Microbiological Monitoring Of Paints Using 2nd Generation ATP
    11/13/2019

    A paint manufacturer produces a wide range of paint products for industrial, commercial, and residential applications. The products are manufactured in large batches of up to 10 tons. Before each batch is packaged and shipped, a number of tests are performed to ensure that the product meets strict quality control requirements. 

  2. Using ATP To Reduce Risks From Legionella In Cooling Towers
    11/4/2019

    A semiconductor manufacturing facility in France relies on an extensive cooling system to maintain stable conditions throughout their production facilities. The cooling system includes 19 cooling towers and 14 cooling water networks spread over a 135-acre site.

  3. Rapid Microbial Assessment Following A Case Of Legionellosis
    12/3/2018

    A case of legionellosis an illness acquired from Legionella bacteria, which can grow in cooling water and potable water systems was diagnosed at a medical retirement home.

  4. Troubleshooting A Sudden Fecal Coliform Non-Compliance Event
    11/26/2018

    A municipal wastewater treatment plant investigated a sudden increase in fecal coliform exceedance events.

  5. FMCW Or ToF? Which Radar Level Technology Is Best For Tank Gauging In Custody Transfer Applications?
    4/9/2018

    Measuring the level of tanks used to hold fluids for custody transfer can be expensive. This is not due to the cost of the measurement instrumentation, but to what inaccurate measurements can cost the company. Picking the right instrumentation for applications is important. Which radar level technology should you choose for tank gauging in custody transfer applications? Frequency Modulated Continuous Waveform (FMCW) or pulsed Time-of-Flight (ToF or PToF).

  6. Are You Experiencing Deviation Alarms In Your High Pressure Process Vessels?
    4/9/2018

    In this white paper, learn how to decrease alarms due to redundant level devices not matching, especially in applications with high pressure and/or high temperature. The importance of Gas Phase Compensation (GPC) and how it affects level readings of guided wave radar (GWR) devices is critical. The presence of polar gas also can have an effect on the accuracy of any GWR that does not have GPC when installed in applications where high temperature or pressure is present. This paper will discuss these issues and address how to overcome them.

  7. Starch Mill Anaerobic & Aerobic WWTP Monitoring Program
    12/7/2017

    Over the course of a 1.5-month field experiment at a Canadian starch mill biological wastewater treatment process, LuminUltra Technologies demonstrated the benefits of using 2nd Generation ATP® monitoring technology. ATP (Adenosine Triphosphate) monitoring technology is an accurate biomass measurement that can rapidly monitor all types of biological wastewater treatment processes, aerobic and anaerobic alike.

  8. Bulk Emergency Chlorine Vapor Scrubber System Restored For Oklahoma City
    9/19/2017

    As a bulk emergency chlorine vapor scrubber system approached the end of its anticipated 20-year useful life, the city engaged Integrity Municipal Systems, LLC (IMS) inspected the equipment and proposed a system refurbishment plan that would ensure proper system performance and safe storage of the 30,000 gallons of corrosive caustic soda contained within it.

  9. Biological Water Treatment: Only The Best Instruments Are Good Enough
    2/28/2017

    Vallviks Bruk AB, located about 200 km (125 miles) north of Stockholm, produces softwood kraft pulp and chemical pulp for export. Some years ago, increased environmental requirements led to a major investment in a biological treatment plant. Read the full case study to learn why ABB instrumentation was an obvious choice when the Swedish pulp producer Vallviks Bruk AB built a new plant for biological water treatment.

  10. Ozone Vent Gas For Aeration At Wastewater Plant Expansion In China
    6/17/2016

    The Jimo, China, municipal wastewater plant was originally designed to treat a combination of municipal and textile wastewater (120,000 m3/d) with Class IB effluent limits for BOD, COD, ESS, TN, NH3-N and TP.