CASE STUDIES Quick Serve Restaurants – Baraboo, WI & Black River Falls, WI

Summaries

Test Kitchen – Cooler

Equipment Applied

(1) KE2 Evaporator Efficiency controller

Results

Reduction of overall time spent in defrost by 50%
More constant room temp

QSR Baraboo – Cooler

Equipment Applied

(1) KE2 Evaporator Efficiency controller

Results

KE2 Evap monitoring revealed defective TXV
More than 50% reduction of defrosts, to less than one per day
More constant room temp

QSR Baraboo – Freezer

Equipment Applied

(1) KE2 Evaporator Efficiency

Results

Defrost cycles reduced by 47%
Room temperature fluctuations are reduced to a few degrees
Coil temperature never exceeds 55°F

PRELIMINARY - Test Kitchen
With over 500 locations in the U.S., this growing QSR chain wanted to fully understand the performance and benefits of the KE2 Evaporator Efficiency controller (KE2 Evap) prior to transitioning to the controller in their restaurants.

In June of 2012 the corporate offices of this QSR began testing with the installation of two KE2 Evaporator Efficiency controllers at their test kitchen location. The system was run using the mechanical controls, and the KE2 Evap was installed for monitoring only. The system was then switched to KE2 Evap control.

The results of the Test Kitchen installation were improved temperature control - less variation in temperature, and a reduction in defrost cycles (Figure 1). However, the relatively light activity of the test kitchen walk-ins were not a complete test of how the controller would perform in a busy restaurant. It was time for the second step — install the KE2 Evap on the freezer and cooler at an established QSR location.

Figure 1 - Test Kitchen - Cooler - Transition from Mechanical to KE2 Evap Control

The cooler was set for one (1 hour 15 min.) defrost per day. The rise in room temp is seen on the graphs above. Once converted to KE2 Evap control, less than one defrost per day was needed. Additionally, the defrost cycle was shorter, resulting in more constant room temperature.

FIELD TEST - Baraboo Cooler For the field test site, the company selected the QSR in Baraboo, Wisconsin.

KE2 Evaps were installed in August of 2012 for monitoring only. Then, after a few weeks of gathering system performance data using the mechanical controls, the system was switched to KE2 Evap control.

Conclusion

With the KE2 Evap controlling the systems, a defective TXV was identified on the cooler and corrected. Once this issue was corrected, the KE2 Evap’s adaptive control required less than one defrost per day to maintain a frost free evaporator coil, and provide extremely stable room temp.

Figure 2 - Baraboo Cooler with KE2 Evap Faulty TXV Identified	Figure 3 - Baraboo Cooler with KE2 Evap July, 2013

Monitoring of the Cooler’s superheat revealed inefficient operation related to a faulty expansion valve.	Even in the summer heat, the KE2 Evap only required two defrosts in five days to maintain stable room temperature.

FIELD TEST - Baraboo Freezer
The freezer at Baraboo was also converted to KE2 Evap control. After using the KE2 Evap to monitor the existing system operation (Figure 4) the system was switched to KE2 Evap control (Figure 5.)

Figure 4 - Baraboo Freezer with Mechanical Controls August, 2012	Figure 5 - Baraboo Freezer with KE2 Evap October, 2012

Existing defrost controls performed 15 defrosts in a 5-day period. Coil temperature spikes to 70˚F during defrost, and room temperature fluctuates constantly.	During the first week of KE2 Evap control, defrost cycles are reduced to 8 in 5 days. The coil temperature never exceeds 55˚F, and when not in defrost, room temperature only fluctuates by a few degrees.

Conclusion

The walk-in freezer at Baraboo experienced nearly a 50% reduction in defrost cycles. Both room and coil temperature control improved when converted to KE2 Evap control.

Summaries

QSR Black River Falls Freezer

Equipment Applied

(1) KE2 Evaporator Efficiency controller

Results

70% reduction in defrost cycles for 30-day period
More stable temperature
Ice accumulation eliminated
Reduced compressor, fan & heater runtime, resulting in energy savings

QSR Black River Falls Cooler

Equipment Applied

(1) KE2 Evaporator Efficiency controller

Results

42% reduction in defrost cycles for 30-day period
More stable temperature
Reduced fan runtime, resulting in energy savings

FIELD TEST - Black River Falls
Having completed successful testing of the KE2 Evaporator Efficiency controller in the test kitchen, and in a QSR restaurant in Baraboo Wisconsin, a second test location was selected for testing in a “problem” walk-in.

The QSR location in Black River Falls, WI was experiencing some icing issues in their walk-in freezer. In September 2013, Leer engineers and a KE2 Therm representative, installed KE2 Evaps on the Black River Falls freezer and cooler.

The KE2 Evaps monitored the existing systems for one month, while the mechanical controls were still controlling the system. Then, in October, the systems were converted to KE2 Evap control. Remote communication to the controllers was established, which allowed for remote monitoring and data collection.

Figure 6 - Black River Falls Freezer Performance graph from November 20, 2013	Figure 7 - Black River Falls Freezer - Converted to KE2 Evap Control October 23, 2013

The freezer experienced as few as three defrosts in seven days (an 89% reduction), room temperature is more stable, and coil temperature is below 55°F during defrost.	This graph shows the room temp of the freezer before and after the conversion to KE2 Evap control. The room temperature is clearly improved using the KE2 Evap.

Freezer - Black River Falls

BEFORE Ice accumulation on walls and ceilings
AFTER Ice buildup is eliminated with KE2 Evap control

Conclusion

BRF Freezer - In addition to a 70% reduction in defrost cycles, the icing issue was eliminated and there is significant improvement in the performance. The compressor, fan and heater are running less, saving energy and reducing wear and tear on the equipment. Having monitoring capability allowed a low refrigerant charge issue to be identified and corrected.

Figure 8 - Cooler Converted to KE2 Evap Control Oct. 23, 2013	Figure 9 - Cooler Converted to KE2 Evap Control Oct. 23, 2013

Graph identifies low refrigeration charge issue, resulting from lower outside temperatures.	Converted to KE2 Evap set to control a room temperature of 38.3°F.

Conclusion

BRF Cooler - The walk-in cooler at Black River Falls experienced noticeable improvement in temperature control when converted to KE2 Evap control. The KE2 Evap’s monitoring capabilities helped correct a refrigeration equipment issue, that could have resulted in lost product.