Power factor correction capacitors is very convenient. Benefits range from reducing energy system search costs to increasing the load capacity of existing chains and reducing total energy system losses. Below is a list of five benefits in descending order of potential economic impact on electricity prices.
1. Avoid penalties for power factor correction
Most industrial processing plants use multiple induction motors to operate pumps, conveyors, and other plant machinery. These asynchronous motors ensure that the power factor of most industrial equipment is significantly lower. Many companies charge a power factor for a lower power factor (usually less than 0.80 or 0.85). Some promote high power factors (such as 0.95 and above). By adding power factor correction, you can remove the power factor penalty at your own expense.
2. Discount cost
Many companies pay for maximum demand measured based on the higher of the maximum demand recorded in kilowatts (KW meters) or the percentage of maximum demand recorded in KVA (KVA meters). If the power factor is low, the measured percentage of KVA will be significantly higher than the demand for KW. Adjusting the power factor to improve the power factor can reduce the cost
required and reduce the electricity bill.
3. Increased payments to existing states
Reactive power is also required to charge the reactive power. Installing a power factor correction capacitors near the inductive load at the end of an existing circuit will reduce the current in each circuit. Reducing power factor corrections capacitors by improving power factor saves thousands of dollars in unnecessary upgrade costs, puts new loads on the chain, and saves the cost of upgrading the distribution network when additional machine power factor corrections capacitors supplies and accessories are needed. increase. In addition, as the current decreases, the resistance loss of the circuit decreases.
4. Increase the voltage
The lower the power factor corrections capacitors, the higher the flow rate for a particular load. As the line current increases, the mains voltage drops more and the device voltage drops. The improved power factor improves the voltage of the equipment by reducing the voltage drop across the cable.
5. Reduction of supply system loss
The economic benefits of reducing driver losses are not sufficient to justify the installation of capacitors. But this can be an attractive side benefit. Especially when pumping with an old feeder or field.
Why is power factor correction important?
This is important because you can pay for the reactive power (foam in the beer example) that cannot be used to power the equipment. If you can reduce foam, you will get more beer for your money, and increasing energy efficiency uses less energy, reduces power factor corrections capacitors, reduces heat and your electricity Extends the life of the system.
Many utilities apply base load (kW) and maximum demand factor. When measuring this maximum demand in kVA, improving the power factor reduces the unit’s kVA, lowering the maximum demand factor and reducing power costs.
In fact, this is a network setting that requires customers to maintain a certain minimum power factor (values vary depending on where you live). In addition to sales tax, utilities may impose fines on consumers if the customer’s Power Factor Correction Capacitors is less than the specified value.
How can power factor correction help you?
An electric load with a lower power factor corrections capacitors more electricity than a load with an enhanced power factor for the same amount of useful energy transferred and can lead to unnecessary stress on the electricity distribution network. By improving the power factor corrections capacitors, you can reduce your electricity bills by lowering monthly electricity and energy charges. The payback periods for the correction of strength factors are usually between 1 and 3 years. Given the lifetime of the power factor correction equipment and potential savings, this can be a very worthwhile investment.
Low power factor can lead to power loss and voltage drop, which can contribute to overheating and failure of motors and other equipment. If your electrical system is close to capacity, the installation of power factor correction equipment can help avoid costly infrastructure upgrades by reducing the current demand for electricity in your system and improving stability and efficiency.
Are you wasting energy?
For example, a power rating of -0.7 indicates that only 70% of the energy supplied to the business is being used correctly and 30% is wasted. Wasted energy reacts. Most loads are inductive. That is, a wattmeter is usually less than one unit. The more the cause of the force exceeds 1, the easier it is to see the force and the more current flows through the system. You may need to increase the size of the transformer, increase the current, and install the wires. As the current increases, the temperature rises, affecting the durability and service life of the electrical system. This can increase power factor corrections capacitors planting costs and limit the spread of plants.