Around 85% of Texas residents must choose an electricity provider. Utility companies transmit and distribute electricity to customers. But that electricity doesn’t come from a utility—it comes from companies known as Retail Electric Providers. These providers offer competitive plans based on electricity pricing, term length, renewable sourcing and more.
Texas REPs have been competing for energy consumers' business for more than 10 years. There might be different Corpus Christi electric rates and supply plans available to you, but how do you know which one is the best fit? When consumers compare electricity providers, they have the ability to find the best energy solution for their home or business. Shoppers tend to search for a supply plan based on options such as term length, special rewards programs, competitive rates and more.
There are over 60 different energy suppliers competing for your business on any given day in Texas. Many of these electric companies have websites that are confusing and nearly impossible to navigate, their rates and fees hidden by dense industry jargon and misleading advertising. Who has the spare the time to sort through the choices spread out over all these different sites and companies?
With the exception of Hillsboro, the incorporated towns in Loudoun County provide water and sewer service to residents of the towns and some outlying areas. Rates vary between towns and between in-town and out-of-town service areas. It is best to check rates before the first water bill arrives. Town residents with questions or problems regarding these services should contact their town government.
Pennsylvania offers first-time retail shoppers an attractive discount with the Standard Offer Program. The Public Utility Commission has a rotating list of retail providers and upon enrollment, they’ll hook you up with a 12-month fixed-rate plan at seven percent off the current utility price. You can cancel at any time without fees. For 1,000 kWh per month usage, PECO quoted us a price to compare of 7.13 cents. A seven percent discount brings that rate to 6.63 cents per kWh (lower than any plan on our provider list) — a $60 savings after a year of service.
Fixed-rate, long-term (contract) plans provide stability in electricity rates. If market energy costs suddenly trend upward where you live, you can rest assured that you won’t have to pay more out of pocket. However, if you want to switch to a different, lower-cost plan before the end of the contract term, you’ll likely have to pay a cancellation or early termination fee.
According to the EIA, the average American household uses 897 kWh of energy per month. Knowing that number, and how your own home’s usage compares, provides insight into the amount of energy you use per device. Our Energy Estimator will show you why simple changes like programming your thermostat or turning off televisions and computers when not in use will help lower energy costs.
Know that Green Mountain’s cheapest advertised plans are all variable rate plans. “Pollution Free,” “Pollution Free Try 3,” or “SolarSPARC 10 Try 3” all advertise a great initial rate — a full cent below Pennsylvania’s 8.49 cent “price to compare” — but its variable rates means the company can raise them at any time. The two “Try 3” plans just lock in the low introductory rate for three months instead of one. The flipside of fixed rate: Should prices fall, you’ll be locked into a contract with a constant, elevated rate for two more months.
How did we get this number?This total is calculated by taking the wattage and daily usage of your common appliances and converting this into a monthly kilowatt per hour (kWh) usage rate. To figure out the estimated cost based on this rate, multiply your kWh per month by the cost of your energy (an average rate is $.12 per kWh). You can learn more about calculating your energy consumption by following the steps on this page.
The mid to late 1880s saw the introduction of alternating current (AC) systems in Europe and the U.S. AC power had an advantage in that transformers, installed at power stations, could be used to raise the voltage from the generators, and transformers at local substations could reduce voltage to supply loads. Increasing the voltage reduced the current in the transmission and distribution lines and hence the size of conductors and distribution losses. This made it more economical to distribute power over long distances. Generators (such as hydroelectric sites) could be located far from the loads. AC and DC competed for a while, during a period called the War of Currents. The DC system was able to claim slightly greater safety, but this difference was not great enough to overwhelm the enormous technical and economic advantages of alternating current which eventually won out.