YSI Videos | ysi.com

Webinar | Chlorine Disinfection Control - DPD vs Amp

Wed, 10 Sep 2025 13:00:14 GMT

Chlorine is a powerful disinfectant that has played a critical role in municipal water treatment for over a century and is one of the most important tools for protecting public health. However, ensuring effective disinfection without creating harmful by-products requires careful monitoring and control.

Watch a technical deep dive into chlorine disinfection, exploring the chemistry, monitoring requirements, and sensor technologies that drive reliable water quality. This session will compare DPD-based analyzers and amperometric sensors, helping you understand when and why to measure free vs. total chlorine in both drinking water and wastewater applications.

What You’ll Learn:

The role of chlorine in disinfection and factors affecting its behavior
Differences between free and total chlorine—and when each should be measured
Principles, strengths, and limitations of DPD and amperometric technologies
Guidance for selecting the right monitoring approach for your facility
Best practices for chlorine dosing, calibration, and maintenance

Who Should Watch:

Operators, engineers, and water quality professionals are responsible for monitoring and complying with disinfection standards in drinking water and wastewater systems.

Learning Outcomes:

By the end of this webinar, you’ll be able to:

Understand free vs. total chlorine differences and when to monitor each parameter
Compare DPD and amperometric systems, recognizing appropriate use cases and considerations
Apply monitoring and dosing strategies for improved process control in drinking water and wastewater applications.

YSI IQ SensorNet | Optimize Your Process & Reduce Operating Costs

Fri, 05 Aug 2022 09:46:23 GMT

Justin: Hello from YSI. I'm Justin King, associate product manager for the IQ SensorNet System. And in this video, I'll be sitting down with Ben Barker, our applications engineer here at YSI. I'll be asking him questions about how the IQ SensorNet System can help water and wastewater plants optimize their treatment processes as well as reduce operating costs. Ben has worked with IQ SensorNet for over five years. During this time, he's gained a lot of knowledge and experience working in the field with plant operators, integrators, and engineers. We'll also be talking about some of the application stories Ben has experienced while he's been in the field. So, how are you doing today, Ben?

Ben: I'm doing well. I'm excited to be here and I'm excited to talk about how IQ SensorNet can help solve process-related issues in wastewater treatment plants.

Justin: Awesome. So, I understand that IQ SensorNet can help plants save in a lot of different ways. For example, energy savings, chemical savings, and even in water savings. Not only that, but the system itself was designed to minimize the cost of implementation, maintenance, and expansion with its modular design.

Ben: Yeah, you're absolutely right. There's a lot of different ways IQ SensorNet that can help reduce operating costs.

Justin: So, I hear from our clients that a common way IQ SensorNet is used is to help with energy savings. Now, how exactly does analytical equipment do that?

Ben: That's correct. Plant energy costs can be expensive if not managed. For example, in a narration basin, blowers that are constantly running use a lot of energy, and all of that energy costs money. In a lot of cases, facilities are over-aerating their process to ensure their immediate compliance. By using an online DO measurement with YSI's FDO dissolved oxygen sensor, a plant can control its aeration process more efficiently by choosing a DO set point, and the blowers can be automatically adjusted based on the sensor's measurement. Take this for example. We have our FDO sensors at a facility in Montana. After installing the sensors, they found that they were over-aerating by four times what they needed. By automatically adjusting the aeration process with a DO set point, they were able to realize huge savings each month.

Justin: So, another way IQ SensorNet can help cut cost is through chemical dosing efficiency. Can you give me some examples of how this is done in a typical plant?

Ben: Yes, absolutely. Chemicals are dosed in wastewater for a variety of reasons, such as chlorine for disinfection, carbon for nitrate removal, or coagulants for phosphorus removal. They can become a large expense for a plant's operating budget. So, being as efficient as possible when dosing chemicals is a very important aspect of plant operations. With an online sensor or analyzer, plants can adjust their chemical dosing to the exact amount that they need rather than overdosing chemicals which can be expensive and cause issues. So, as an example, there is a plant in Wisconsin that is dosing aluminum sulfate to help meet at strict total phosphorus limits. Alum is a very expensive chemical, so efficiently dosing is very important to this plant. Initially, they were taking grab samples and manually adjusting the dosing pumps. This procedure had chemical costs of $10,000 a month. By adding an orthophosphate analyzer to the effluent and automating dosing control based on the analyzer's measurement, this plant was able to cut their monthly chemical costs by $1500, saving them a total of $18,000 a year.

Justin: Minimizing water loss and drinking water plants is an important aspect of day-to-day operations. Now, how is IQ SensorNet being used to keep excess water from being wasted?

Ben: IQ SensorNet can help drinking water plants save water in many different ways. For example, a drinking water plant in Pennsylvania is using IQ SensorNet's turbidity sensor in their filter system to optimize their backwash cycle. Originally, this plant would run two 20-minute rinses during their backwash cycle each day and they would waste all of the water they used. Since installing the IQ SensorNet VisoTurb, they are now able to monitor turbidity measurement and stop the rinse cycle when they reach their target turbidity, which cuts down on the rinse time and saves a lot of water in the process. On average, this plant now saves 1 million gallons of water each day.

Justin: So, we've talked about how using online sensors can save in energy, chemical, and water costs. But how can using IQ SensorNet over other sensor systems save money?

Ben: Well, I'm glad you asked that. IQ SensorNet actually has many features that allow it to be more user-friendly and cost-effective than the competition. To start, we utilize a one-cable design that carries both communication and power. This simplifies installation by minimizing cabling. So, instead of having power and communication cables running throughout the plant, we have one cable that accomplishes both. IQ SensorNet can also accept up to 20 sensors on a single system with a portable controller that can be placed anywhere in the system. This means that you only need a junction box at each measuring location instead of an expensive controller, which drastically reduces the overall cost of the system.

Justin: Well, thanks for taking the time to sit and talk with me about all the benefits that IQSensorNet can offer. I have one last question for you. Where can people find more information about IQ SensorNet?

Ben: That's easy. If you're interested in learning more about the benefits of IQSensorNet, just visit our website at ysi.com/iqsn.

YSI IQ SensorNet is a network of online controllers, sensors, and analyzers that continuously monitors water quality throughout the wastewater treatment process. IQ SensorNet can help wastewater treatment plants increase operational efficiency, lower operating costs, and improve performance. Ensure that your water resource recovery facility is within compliance and under budget with YSI’s wastewater instrumentation.

YSI Alyza IQ | Changing Cleaning, Calibration, & Measurement Intervals

Tue, 29 Mar 2022 13:54:52 GMT

This video covers how to change the cleaning, calibration, and measurements intervals on the IQ SensorNet Alyza IQ analyzer.

To change cleaning, calibration, measuring intervals, start by pressing the "S" button.

Scroll to Settings of sensors and diff. sensors and press Okay.

Highlight the far right column, press Okay. And then press Continue.

This is where you will change cleaning, calibration, and measuring intervals.

Starting with the measuring interval, highlight Meas. interval and press Okay.

Select the desired interval between 5 minutes and 12 hours.

Continuing down to Automatic Cleaning, highlight Autom.cleaning, select On, and press Okay.

Underneath this listing, five new variables will pop up including interval, which offers selections of 6 hours, 12 hours, 24, 48, and 96 hours.

Underneath this is Ref.time hours and Ref.time minutes. This allows you to set what time of day the automatic cleaning cycle starts. In this example, we are starting the cleaning cycle at 8:30 a.m.

Under this is Conditioning and count of steps. Conditioning refers to the number of rinse cycles that take place after an automatic cleaning. This is adjustable from 1 to 10 using the count of steps function.

Now, moving on to the automatic calibration function. After turning it on, four new variables will populate the first of which being Procedure. This will allow you to choose a 1 or 2-point calibration procedure. You will only have the 2-point option if you have installed 2 calibration solution ChemBags.

Next, you will set the interval. The options are 6, 12, 24, 48, and 96 hours.

The last two variables to be set are Ref.time hours and Ref.time minutes. In this example, we are setting automatic 1-point calibrations to occur every 12 hours starting at 12:30 p.m. After setting up the automatic calibration, double-check that all settings on this screen are satisfactory.

Before exiting from this screen, be sure to scroll to the bottom and press Save and quit. Failure to do this will cause all changed settings to be erased.

This concludes how to change the cleaning, calibration, and measurement intervals on the Alyza IQ.

Webinar | Improve Chlorine Disinfection in Wastewater with Online DPD Analyzers

Tue, 16 Nov 2021 11:09:42 GMT

Chlorine is a powerful disinfectant that has been used in water treatment processes for over 100 years. When applying chlorine disinfection to wastewater, careful control of dosing is vital to meet effluent discharge limits and avoid overdosing chlorine. Online chlorine analysis using a DPD chlorine analyzer is an effective method to control dosing with great accuracy and reliability.

Attendees will be able to:
1. Describe how chlorine removes pathogens from water and why it is the most common method for disinfection.
2. Explain chlorine behavior in wastewater and how to properly dose chlorine.
3. Describe how DPD chlorine analyzers can be used to monitor and control chlorine disinfection in wastewater treatment.

Earn CEUs!
This on-demand educational webinar is 50 minutes with 10 minutes for Q&A. After the webinar, attendees are eligible to receive a certificate awarding 0.1 CEUs.

Webinar | Online Sensors Improve Wastewater Treatment Case Study

Fri, 09 Jul 2021 11:56:58 GMT

New to online instrumentation? Accurate data from online water quality instruments can help Wastewater Resource Recovery Facilities (WRRFs) meet their treatment goals. Online sensors can assist operators with process optimization, lowering treatment costs, and meeting effluent limits. Knowing how to use these sensors properly is critical to ensuring accurate, reliable data. In this webinar, you’ll learn directly from a utility operator with extensive first-hand knowledge of online sensors. This case study discusses the use of online instrumentation at Colorado Springs Utilities, including sensor applications, operator experiences, and recommendations on sensor use.

On-demand viewers will be able to:

-Discuss how and why instrumentation is used in wastewater treatment.
-Evaluate the need for instrumentation at their own facility.
-Apply online sensors to real-world applications
-Understand sensor care requirements and potential limitations.

YSI Webinar | Process Control Strategies for Activated Sludge Optimization

Tue, 02 Feb 2021 14:49:31 GMT

Join YSI experts, Benjamin Barker and Steve Wortendyke, as they review solids control strategies in municipal wastewater applications.

Biologically active sludge is a fundamental aspect of secondary treatment in wastewater treatment facilities. Cultivating and maintaining a healthy biomass of microorganisms for effective nutrient removal is no easy feat. However, by carefully controlling for a few key process parameters, the optimal biomass for activated sludge can be sustained and lead to a stable and consistent process. This webinar will describe solids control strategies and how TSS, sludge level, and BOD/COD data from online instrumentation can be used for improved monitoring and control of activated sludge.

After watching the webinar, attendees will be able to:

• Describe and identify factors that contribute to an effective activated sludge process.
• Understand how to use process parameters, such as Solids Retention Time (SRT), F:M Ratio, and MLSS Control, for real-time control.
• Apply online instrumentation to monitor and control the activated sludge process.

Who should attend:

Engineers, operators, instrument technicians, and superintendents who want to learn more about wastewater solids control strategies.

YSI Webinar | The Essentials of Phosphorus Removal in Wastewater

Fri, 17 Apr 2020 09:05:50 GMT

Are you facing challenges with lower effluent phosphorus limits at your WRRF? YSI experts review phosphorus removal strategies in municipal wastewater applications.

Phosphorus, primarily existing as phosphate, is a nutrient of concern for many wastewater operators. Effluent phosphorus limits continue to be lowered to protect our lakes and rivers from eutrophication. To meet these limits, operators need to improve treatment processes to remove phosphorus as efficiently as possible.

In this educational webinar, we discuss:
• Strategies for phosphorus removal in wastewater
• Monitoring and control methods for orthophosphate
• Wastewater Resource Recovery Facility (WRRF) phosphorus removal case studies

Download our White Paper >>> The Phosphorus Problem

YSI Webinar | Preventing Fouling of Online Wastewater Sensors

Tue, 06 Jun 2017 19:00:00 GMT

Want to get the best continuous data possible to make operational decisions and improve efficiencies? That can't be done with fouled-up, gunked-up water quality sensors. Watch how to deal with this issue.

YSI Webinar | How to Get the Best Data with Online Wastewater Process...

Mon, 05 Jun 2017 19:00:00 GMT

This webinar covers online wastewater process sensors for ammonium and nitrate and the necessary methods to get the best water quality data.

YSI Webinar | Online Monitoring of Nitrate with Optical Sensors

Tue, 30 May 2017 19:00:00 GMT

Wastewater process control made easier with continuous, online monitoring of nitrate with optical-based sensors (https://www.ysi.com/nitravis).

IQ SensorNet Wastewater Monitoring & Control | City of Dayton, OH | YSI

Thu, 04 Sep 2014 19:00:00 GMT

The City of Dayton, OH utilizes the YSI IQ SensorNet (http://www.ysi.com/iq) to lower preventative maintenance, optimize process, meet permits, and save money in the long run.

Jason Tincu explains their use of DO sensors to fine tune aeration needs while using the ammonium sensors to trim back aeration even further while still completely nitrifying in the system.

The YSI IQ also eliminates the need to have outside professionals onsite and prevents the City from having costly service contracts.

As the City looks into the future, they anticipate tighter restrictions on their permit in regards to phosphorus and they intend to seamlessly add the YSI Orthophosphate analyzer to their existing IQ SensorNet system

The YSI IQ SensorNet 2020 XT is a modular water quality system for a complete sensor network ideal for various installation needs. The modular system can accept additional sensors easily at any time. This is a powerful system to continuously measure water quality parameters anywhere in a facility for process control.

Immediate benefits include better network visibility and management, early detection of network failures, improved compliance with regulatory targets and cost savings (energy, pump/blower maintenance, labor).

The system is capable of measuring:
Dissolved oxygen (optical or electrochemical)
pH
ORP
Conductivity
Temperature
Turbidity - ultrasonic cleaning
TSS (total suspended solids) - ultrasonic cleaning
Ammonium
Nitrate*
Potassium
COD (chemical oxygen demand) - ultrasonic cleaning
TOC (total organic carbon) - ultrasonic cleaning
DOC (dissolved organic carbon share of TOC) - ultrasonic cleaning
SAC (spectral absorption coefficient) - ultrasonic cleaning
BOD (biochemical oxygen demand) - ultrasonic cleaning

*Chloride can be seen in the menu on the terminal but only the last value. No real-time monitoring and control function when used on the NitraLyt or VARiON sensor as compensation for nitrate.

The entire system accommodates up to 20 sensors for the above listed parameters in any combination. Any sensor can also be changed out at any time without re-wiring if another parameter is needed. Simply change sensors (parameters) and start getting data for the new parameter.

Interested in winning an IQ SensorNet system? (http://bit.ly/YSIwinIQSN)

Wastewater Water Quality Monitoring with the YSI IQ SensorNet

Thu, 07 Feb 2013 19:00:00 GMT

The IQ SensorNet, http://www.ysi.com/iq, is a continuous water quality monitoring and control system for wastewater treatment plants. Improve efficiency and save operating costs, pump maintenance and more. Many features are available on the IQ SensorNet.