DENT Attends the CGNA Synergy Conference

Last April, DENT attended the Controls Group North America (CGNA) Synergy Conference in Savannah, GA. This conference was a meeting of the top manufacturers and distributors in the controls industry and terrific opportunity to showcase DENT PowerScout meters and accessories to other CGNA members.

Thanks to Eric Stromquist for capturing our newest PowerScout 3037 video! DENT Power Meters Rock – We could not agree more!

https://youtube.com/watch?v=3WtHd-Z3IHU%3Frel%3D0

Energy & Electrical Submetering: Making the Submeter Case

Today’s escalating energy costs put increasing pressure on businesses and organizations to proactively manage their energy use. There is a growing sense of urgency to understand energy consumption patterns and to develop effective actions to manage their associated expenses.

Gaining the upper hand on electrical costs often begins with some comprehensive detective work: Taking measurements, locating energy hogs, and understanding time-of-use issues. As facility managers, engineers, and electrical supervisors know, the price of electricity is more than simply a matter of cost per kilowatt hour. Peak demand charges and power factor penalties can drive operating costs through the roof.

Load profile studies and energy audits can provide the baseline data necessary for a comprehensive energy management program. Armed with solid data, energy managers find it possible to reduce demand, contain costs, improve equipment performance, identify energy conservation measures, and curtail use during periods of high energy costs.

WHAT IS SUBMETERING?

Submetering refers to the monitoring of consumption of individual equipment within a building. In the

case of electrical submetering, the equipment being monitored may include HVAC, lighting, or kitchen/refrigeration. Utility submetering also allows a landlords or property owners to monitor consumption

in order to bill tenants for individual utility usage.

Obtaining usage and consumption data by submetering is sound business practice. Submeter benefits can include capturing lost revenues from retail, building, and department tenants, verifying cost savings on capital projects, scheduling preventative maintenance on equipment and optimizing performance of the entire facility.

BENEFITS OF SUBMETERING

  • Quickly identify whether equiment is being left on during the night or over the weekend
  • Compare usage across similar facilities, such as other branches or store locations
  • In-depth view of facility energy data in real-time
  • Identify maintenance issues before equipment failure
  • Provide facility managers with feedback on which changes are working and what to do next

Have you incorporated submetering into your energy management program? Do you rely on spot metering to compliment your submetering strategy? If you’re looking for a solid submeter solution, DENT Instruments can help. Please contact us to learn more about our PowerScout meters and flexible RoCoil (Rogowski) current transformers.

Maximize Power Meter Performance with New Revenue Grade Current Transformers from DENT Instruments

New Revenue Grade Current Transformers (0.2% accuracy) are now available from DENT Instruments. These split-core and toroidal CTs are designed for applications which require maximum accuracy & precision. The superior performance and robust design make them ideal for field installation in applications such as energy & demand metering, tenant submetering, and load surveys.

Maximize end-to-end accuracy by pairing these CTs with a revenue grade power meter, such as the DENT PowerScout 3037 or PowerScout 24.

Hinged Split Cores

DENT’s SRS & SRL Series hinged split-core current transformers are designed for Revenue Grade
applications that require maximum accuracy and precision. The superior performance, robust design, and unique shrouded snap, lock & tilt top of the SRS/SRL Series CTs make them ideal for field installation in high accuracy current measurement applications such as energy and demand metering, tenant submetering and load surveys. Revenue Grade performance of these CTs meets or exceeds IEC 61869-2 Class 0.2; IEC 60044-1 Class 0.3; and IEEE C57.13 Class 0.3.

Toroidal Solid Core

DENT’s RGT Series toroidal current transformers are designed for Revenue Grade applications that require maximum accuracy and precision. The superior performance, robust design, and compact size of the RGT Series CTs make them ideal to be used for current measurement in panelboards, switchgear, and industrial control equipment. Revenue Grade performance of these CTs meets or exceeds IEC 61869-2 Class 0.2; IEC 60044-1 Class 0.3; and IEEE C57.13 Class 0.3.

Learn about the full range of DENT Current Transformers here or request a quote.

Multi-Circuit Submetering: A Cost-Effective Solution for Electrical Load Profiling of Hospital Emergency Power Supply System Loads

By: Zack Smith & Allan Evora, Affinity Energy

ATS MULTI-CIRCUIT METERING HELPS EFFECTIVELY MANAGE LOAD CREEP

Emergency Power Supply Systems (EPSS) are the critical infrastructure that supports a hospital system during power outages. Regulations place a lot of emphasis on testing and maintenance of the EPSS system; however, all the maintenance in the world will do no good if the EPSS becomes overloaded.

EPSS experience load creep like normal power systems. Additionally, they run the risk of reduced capacity due to the addition of non-essential loads plugged in to designated red receptacles during extended outages. These loads may consist of diagnostic equipment or in some cases “comfort equipment” such as microwaves, heaters or coffee pots. Education and training can help ensure only approved loads are plugged in to EPSS.

Submetering is the only way to truly manage load creep and prevent EPSS overload.

YOU CAN’T MANAGE WHAT YOU DON’T MEASURE

The best way to manage your capacity is to submeter your loads. For some hospitals, this is easier said than done. While you may have submetering information at the generator switchgear or even downstream submetering at EPSS distribution switchgear, the ideal location to submeter for managing load creep is the load side of the automatic transfer switch (ATS).

Newer ATSs (installed within the last 10 years) either have digital controllers that incorporate submetering as an option, or engineers had the foresight to specify that OEMs install a separate third party submeter with the ATS. Unfortunately, older ATSs need to retrofit submeters to be able to measure the ATS load. This can be a costly proposition when considering hardware and installation costs. The combination of OSHA regulations, and the fact that the ATS is part of critical infrastructure, can make modifying equipment challenging.

A COST-EFFECTIVE ALTERNATIVE TO CONVENTIONAL CIRCUIT MONITORING

Within the last five years, a new type of electrical submeter has emerged and is an ideal solution for retrofitting ATSs with submetering capability. This meter type is referred to as the multi-circuit or multiple circuit meter. The concept is simple: Use one submeter CPU/circuit board to measure multiple loads.

A multi-circuit meter has only one set of inputs for a common voltage source, and multiple sets of current inputs for loads that share the common voltage source. Due to limitations on current transformer (CT: the instrument that provides current input to the meter) lead wire length, the multi-circuit meter is best suited for loads in which the CT installation locations for the loads are near one another (typically within 100 ft.).

Examples include: submetering all the circuits within a distribution panel, or all the distribution panels within an electric room, or feeder breakers on a unit substation. Since ATSs tend to be concentrated in electric rooms and typically share a common normal and emergency voltage source, they are great candidates for multi-circuit submeters.

What makes multi-circuit submetering so cost effective? The lower hardware and installation costs. Additionally, since there is only one CPU/circuit board, there is only one low-voltage communication connection.

Our general rule of thumb: whenever you have more than two loads to submeter that meet the criteria for multi-circuit metering, go with multi-circuit metering. Its costs will be lower when compared to individual meters.

MULTI-CIRCUIT SUBMETER HARDWARE

The DENT Instruments PowerScout 24 is a great example of an inexpensive yet accurate submeter that provides all the measurements necessary for monitoring ATS loads. DENT Instruments was one of the first companies to introduce the multi-circuit design.

The PowerScout 24 comes with its own enclosure, is powered via the voltage source and easily integrates to your SCADA or building automation system via Modbus or BACNet. It can measure up to 8 3-phase loads. List price for a PowerScout 24 with serial communication is $1,200. A DENT PowerScout 3037 (the single circuit meter version) is $400.

Taking in to account installation costs, it is easy to see how the multi-circuit meter is a cost-effective solution when you need to meter more than two loads that meet the multi-circuit criteria. The cost savings are even more substantial as the number of loads increases. A fully provisioned PowerScout 24 will have approximately 66% lower hardware costs when compared to individual meters. Taking in to account labor savings, the total costs savings can be as much as 80-90%.

TURN THAT DATA INTO INFORMATION

Submeters provide data. To make this data valuable, it needs to be turned into actionable information. To accomplish this, we recommend a few additional steps.

First, we recommend that submeter data be recorded. To be of benefit, the load profiles need to be analyzed over time using trending software within your SCADA or building automation system. If you don’t have an existing system, there are some very cost effective data logging devices that can store a large amount of interval data. This data can generally be exported and analyzed with a desktop application such as Microsoft Excel. We also recommend that the ATS switch position and generator run status also be recorded.

Using this information, it would be easy to analyze the data to check the load prior to the ATS switching to emergency, the load while on emergency, and the load after the ATS returns to the normal source. Using this analysis, it’s easy to identify loads added during a power outage and not removed when normal power is restored.

Another easy way to spot load creep is to trend year over year load growth. Using this analysis technique, load creep is easy to quantify.

Ultimately, multi-circuit submeters are an easily installed, inexpensive way for healthcare facility managers to conduct accurate load profiling and analysis.

ABOUT AFFINITY ENERGY

Affinity Energy is a vendor-neutral control systems integrator with a national portfolio of over 800 power automation projects and a rich depth of expertise working with mission critical facilities, distributed generation plants, energy companies, engineering firms, and construction contractors who seek open, turnkey systems for power management and energy optimization.

Specifically, they work to design, build, implement, and support controls, instrumentation, and monitoring systems, during the design and/or build phases of a new construction or retrofit project for utility-scale solar farms, airports, waste-to-energy plants, data centers, medical campus central energy plants, and manufacturing companies.

See the original post on the Affinity Energy website here.