Showing posts with label LUT400. Show all posts
Showing posts with label LUT400. Show all posts

Wastewater Treatment Plants Save Big on Energy with Ultrasonic Controller

SIEMENS LUT400
SIEMENS LUT 400

For a water/wastewater treatment plant (W/WWTP), pumping is one of the most expensive parts of day-to-day operations. Varying from country to country, these costs range from 30 to 50 percent or more of a W/WWTP’s hydro bills – and in the future, this number will only increase as energy prices climb. Overall, water and wastewater treatment are one of the largest energy consumers in most municipalities, so any savings have an impact on more than just the W/WWTP.

By the Numbers

Just how much does pumping cost? Take your average 50 horsepower pump. In an hour, this pump consumes around 37 kilowatts. Do the math and at a cost of $0.065 per kilowatt hour (kWh) – Ontario, Canada’s off-peak price – that one pump costs a W/WWTP $12 every day, $4400 each year (as it has a running time of five hours per day).

But we know that many places, including Canada, the UK, Germany, South Africa, and Australia, have different rates according to the time of day or season energy is consumed. So while our single pump costs $0.065 per hour during low-energy periods, it now costs up to 80% more during Ontario’s peak-energy periods. So if the same company did all of its pumping during these peak periods, over the course of a year it would have spent an additional $3500! And remember this is just for a single pump – many W/WWTPs have hundreds of pumps, depending on a facility’s size.

Of course, no company is going to pump only in peak-energy periods – as we have just seen, that would be outrageously expensive. But, since wastewater treatment happens at all times of the day, facilities must pump during these high-cost periods.

So, How Do I Save Money?

SITRANS LUT400, Siemens’ newest ultrasonic controller, features two models that control
pump operating range
Figure 1: During peak periods, the pump operating range is
much smaller than in normal operation,
reducing the amount of time pumps must run.
economy-pumping regimes (also known as skimming): SITRANS LUT430 Level, Volume, Pump, and Flow Controller; and SITRANS LUT440 High Accuracy Open Channel Monitor, providing a full suite of advanced level, volume, and pump controls.

In normal operation, the controller will turn on pumps once water reaches the high level set point and then will begin pumping down to the low level set point. In economy pumping, the controller will pump wells down to their lowest level before the premium rate period starts, thereby maximizing the well’s storage capacity. The controller then maintains a higher level during the tariff period by using the storage capacity of the collection network. Pumping in this way ensures compliance with environmental regulations and minimizes energy use in peak tariff periods.

How Do I Set Up an Economy-pumping Regime?

Install SITRANS LUT400 ultrasonic controller and connect it to a Siemens Echomax transducer in
Siemens Echomax transducers
Siemens Echomax transducers installed in the well and the
SITRANS LUT400 controller measure the level of water and
control pump operations.
your well. You will set pump on and off points based on your local peak- energy periods. During summer in Ontario, for example, the peak tariff period is between 11 a.m. and 5 p.m.

In the winter, these times change to 7-11 a.m. and 5-7 p.m. You can program up to ve peak zones during one 24-hour period.

To begin setting up your economy-pumping regime, enable SITRANS LUT400’s Energy Savings function. Set the Peak Lead Time to 60 minutes to start pumping water down 60 minutes before the high-cost period begins so the well is at its lowest point. Depending on the volume of your well, you can set your Peak Lead Time to any amount between zero and 65,535 minutes.

On the controller, select the Peak Start Time of 11:00 a.m. and the Peak End Time of 5:00 p.m. Set your Peak ON Setpoint to nine meters and the Peak OFF Setpoint to six meters, as shown in Figure 1.

In Normal Operation mode, the controller starts the pump when water reaches eight meters and stops the pump at two meters. In Energy Saving mode, SITRANS LUT400 turns on the pump when water reaches nine meters and stops pumping at six meters, thus running the pump for the minimum amount of time during peak tariff periods. Cost-savings through economy-pumping regimes are simple to put in place with these steps.

Don’t forget that when you are setting up your controller, you can take advantage of SITRANS LUT400’s real-time clock for daylight saving time adjustment. The real-time clock is a useful feature – input your location’s daylight saving time and economy pumping will occur throughout the year without interruption.

Infiltration and Ingress (I&I) Monitoring
LUT400 controller and XRS-5 transducer
LUT400 controller and XRS-5 transducer
in a wet well application


Another cost-saving feature of this controller is in ltra- tion and ingress monitoring with SITRANS LUT400’s pumped volume feature and built-in datalogging capabilities.

In a closed collection network, it is inef cient and costly to pump rainwater entering the system due to leakages from degraded pipes. SITRANS LUT400 calculates pumped volumes, providing useful historical trending information for detecting abnormal increases of pumped water.

To use this feature, provide the known volume in the well between the pump’s ON and OFF setpoints. The controller will calculate the pumped volume based on the rate of level change in the well during pumping. It also calculates the in ow rate based on the rate of level change in the well just prior to pump startup.

SITRANS LUT400 logs this information for you to review via the controller’s communications options, or by connect- ing a USB cable and downloading logs directly to your computer. By comparing these results, you can see if in ow rates are greater due to rainwater entering the system. Repair those damaged pipes and the cost savings begin!

Through economy pumping and I&I monitoring, SITRANS LUT400 gives companies the potential for sig- ni cant energy savings. One SITRANS LUT400 user stated that every small change his company makes to reduce consumption has the potential to save millions of dollars each year.

For more information, contact:
Ives Equipment
(877) 768-1600

Siemens SITRANS LUT400 Pump Level Assist Routines

Siemens SITRANS LUT400
Siemens SITRANS LUT400

The Siemens SITRANS LUT400 series controllers are compact, single point, long-range ultrasonic controllers for continuous level, or volume measurement of liquids, slurries, and solids, and high accuracy monitoring of open channel flow.

The preconfigured pump routines in the SITRANS LUT 400 allow you to choose the best pump control scenario for your application. In the video below, you will see how the assist pump routines work.

The SITRANS LUT 400 has three assists pump routines available:
  • Alternate duty assist
  • Service ratio duty assist
  • Fixed duty assist
The fixed duty assist routine mainly uses one pump to control the liquid level. In this example, pump 1 will always start before pump 2. When the liquid level reaches the pump 1 “on” set point, pump one will turn on. If the liquid level continues to rise while pump one is running, then pump 2 will start. Pump 2 will assist pump 1 to lower the liquid level. Both pumps we'll turn off when the liquid level reaches the “off” set point. This pump sequence is fixed. Pump 1 will always start first, then if necessary, pump 2 will assist pump 1.

The alternate duty assist routine rotates between both pumps to control the liquid level. Pump 1 will start first. If it cannot keep up with the inflow, then pump 2 will turn on and assist pump 1. Both pumps will run until the liquid level reaches the pump “off” set point. On the next cycle, pump 2 will be the first pump to start. Pump 1 will assist pump 2 if it is necessary. The starting pump will continue to alternate between pump 1 and pump 2 after each filling cycle.

The service ratio duty assist routine rotates between both pumps based on the defined service ratio. In this example the service ratio is split equally between both pumps. The SITRANS LUT will choose which pump starts first based on this ratio. Since pump 1 has the lowest runtime hours it starts first. Pump 2 will assist pump 1 if the level continues to increase.  On the next cycle, pump 2 to will start first. Pump 1 will assist pump 2 if necessary. The service duty ratio assist routine will continue to maintain the runtime ratio for each filling cycle.