Snohomish County Public Utility District No. 1

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Customer Service (M-F 8a-5:30p): 425-783-1000

Billing Charge FAQs

Billing Demand Charge

Approximately 1,000 commercial/industrial customers of Snohomish County PUD are charged a demand charge. The demand charge is based on the maximum amount of electricity that is needed to serve these large electrical loads.

(To view a complete list of all questions and answers, click on the link to the right for a PDF version. Acrobat Reader is required to view the PDF.)

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What is a demand charge?

High-volume electricity users pay demand charges to the PUD to recover the utility's costs of providing maximum electrical load. The PUD itself pays demand charges to its largest electricity supplier, the Bonneville Power Administration (BPA). The PUD also must build and maintain equipment, and supply extra capacity, to customers who have maximum load requirements. The PUD’s charge is for all kilowatts over 100 kW per month for Schedule 20 customers. You will find a list of all rate schedules here.

How does electrical consumption (kWh) relate to demand (kW)?

Demand (kW) is the average kilowatt load over a specified interval of time. Because electricity cannot be stored, the cost of serving a customer who runs a 100-hp motor for 1 hour a day is much greater than the cost to serve a customer who operates a 10-hp motor 10 hours a day, even though both consume the same amount of energy (kWh). The 100-hp motor creates a larger demand (kW) and requires larger generating capacity, heavier cables to carry the electrical energy, larger transformers, switches, fuses, and protective apparatus.

Why not just raise the energy consumption (kWh) cost to cover demand?

It is not equitable to raise the energy charge for all users because small customers with constant loads would be paying for equipment used only by large customers with varying loads.

What are the parameters for a demand charge to be applied?

When the highest average 15-minute demand is greater than 100 kW, a demand charge is applied. The PUD has developed a Commercial Accounts Verification (CAV) program to verify metering accuracy and to identify customers who have the capability to exceed 100 kW demand — which will result in some customers receiving demand charges who haven’t had them previously.

Do customers with a demand meter see a difference in their bill?

They may. Their bill will include what their highest average 15-minute demand was for the billing cycle, and they will be charged for the kW load over 100 kW. If, however, the highest average 15-minute demand was under 100 kW, they will not be billed a demand charge.

How is a customer’s monthly demand use determined?

The PUD demand meter registers in 15-minute blocks of time. The billed demand is based on the highest average (not instantaneous) demand for any 15-minute block of time in the billing cycle. The meter is reset each billing cycle once it has been read and recorded.

What type of meter is used to measure demand?

A demand meter can be thought of as a standard watt-hour meter with the ability to measure average load over a specific interval of time. The new demand meters are microprocessor-based instead of electromechanical. Just as the cost of computers has dropped, so has the cost of demand meters while accuracy has increased.

What can I do to limit my demand charges?

Reducing demand charges (or “demand leveling”) can be as simple as rescheduling the time when equipment is started to avoid simultaneous use during any 15-minute cycle. More sophisticated energy management activities include demand controllers that typically shed discretionary loads (heating, air conditioning, ventilation fans, electric hot water tanks, refrigerators/freezers, and air compressors) for short periods of time. These loads have “flywheel” capacity, meaning they can be interrupted for short periods without affecting people or business operations. One common problem that can occur is short-cycling, which can be destructive to loads like air conditioners and large motors. These types of loads should be assigned minimum on/off times or duty cycles to prevent problems.

Does the starting of large motors significantly impact demand charges?

Most electric motors usually start over a period of 3 to 10 seconds, using 5 to 7 times the power draw required for normal full load motor operation. As this large power draw or “spike” is averaged over the 15 minute (or 900 seconds) demand period, the impact to demand charges is minimal. Note that motors using adjustable speed drives typically use a ramping process so that starting current never exceeds the maximum full load running current. A motor using a reduced current starting device (soft start) will have a reduced starting current compared to a motor without the device. The soft start motor starting current is typically greater than full load running current, though the impact to demand charges is minimal.

Billing Power Factor Charges

Approximately 300 commercial/industrial customers of Snohomish County PUD have their demand charge adjusted based on their power factor. Listed below are some common questions and answers to help you understand the power factor demand adjustment.

(To view a complete list of all questions and answers, click on the link to the right for a PDF version. Acrobat Reader is required to view the PDF.)

View all
What is power factor?

Power factor measures how effectively total delivered power is being used. It is the ratio of working power or energy (kilowatts or kW) to apparent or total power (kilovolt-amperes or kVA) delivered by the PUD. A high power factor signals effective utilization of electrical power, while a low power factor indicates poor utilization of electrical power. However, this is not to be confused with energy efficiency or conservation, which applies only to energy or kW. Improving the efficiency of electrical equipment reduces energy consumption but does not improve the power factor.

What causes a low power factor?

The main contributors to low power factor are motors operated at less than full load. This often occurs in cycle processes such as saws, conveyors, compressors or grinders where a motor must be sized for the heaviest loads. HVAC fans often have a low power factor due to running at reduced load.

What is a power factor charge?

The power factor charge is an adjustment to the demand charge if the customer’s power factor is less than 0.97 or 97%. This fee is charged to large electricity users to recover the PUD costs for maintaining a good power factor on our distribution system. The PUD pays power factor charges to its largest electricity supplier, the Bonneville Power Administration (BPA), if the power it purchases from BPA is below 97% power factor.

How is the power factor charge shown on my bill?

The average “Power Factor” and “Adjusted Demand” for that billing period is shown on the customer’s bill. The Demand charge shown on the bill includes the adjustment due to low power factor.

How is power factor measured? Is there a special meter for measuring power factor?

Power factor is calculated from measured quantities using a meter capable of measuring both kilowatt-hours (kWh) and kilovolt-amperes-reactive-hours (kVARh).

How does the PUD select which customers are charged for power factor correction?

Customers who consistently have a demand that is greater than 100kW and have a power factor less than 0.97 or 97% will have their demand adjusted based on power factor.

How is a customer's monthly power factor determined?

As stated in the PUD’s Rate Schedule 82, the power factor is calculated using the total monthly kWh and total monthly kVARh. The demand is increased by one percentage point for each one hundredth (.01) of a unit by which the average power factor is less than 0.97.

The formula is as follows:

Average Power Factor =

kWh divided by square root of (Kilowatt-hours2 + Reactive Kilovolt Ampere Hours2)


PFavg = kWh / (kWh2 + kVARh2)1/2

Adjusted demand = kW Demand * ((.97 - PF)+1)

What can I do to limit my power factor adjustment charge?

One method to improve your power factor is by adding power factor correction capacitors to your plant distribution system.

When apparent power (kVA) is greater than working power (kW), the utility must supply the excess reactive current plus the working current. Power capacitors act as reactive current generators. By providing the reactive current, they reduce the total amount of current your system must draw from the utility.

Another method is to install equipment that has a good power factor rating - for example, adding an adjustable speed drive to a lightly or variably loaded induction motor. Whenever specifying new equipment, the power factor of the equipment should be considered. While initial costs might be higher, it is often more economical in the long run to purchase equipment with a higher or better power factor.

Who can help me determine the size and placement of capacitors on my electrical system?

A consulting electrical engineer should be able to assist you with your specific application and equipment needs. The consultant can also work with PUD engineers to ensure the solution is the optimal size and location for both of our systems. There are many factors to consider such as NEC & NESC requirements, harmonic interaction and voltage regulation, as well as economics.