A significant percentage of generation technology is becoming outdated and inefficient and is approaching the end of its lifecycle, which means it is less cost-effective than today’s latest technology. In this post, we’ll share challenges associated with older technology, along with the benefits of optimizing modern technology, then share a distributed power generation case study.

End-of-Life-Cycle Infrastructure

When new, the outdated technology were highly venerated. By now, though, this aging infrastructure is often creating the following challenges; it typically is:

• increasingly less reliable
• consuming more fuel, increasing the amount of money spent overall
• producing higher emissions
• requiring more frequent maintenance
• prone to potential or complete plant failures

Benefits of Highly Efficient Power

When grid performance is optimized with modern and reliable technology, you can benefit in numerous key ways, including:

• an immediate realization of fuel efficiency savings
• cleaner, more reliable, energy-efficient power
• incremental savings through reduced maintenance costs

Companies can fast track fuel efficiency savings through the replacement of old equipment with the newer power generation technology. To achieve optimized savings, APR Energy uses a targeted, prioritized approach to leverage fast track capabilities, which translates into quick savings delivery to customers. Our goal is to build a long-lasting relationship with each of our customers and offer custom solutions to fit their specific requirements. Here’s just one example (with additional case studies here.)

Modern Technology Combined with Industrial Leading Expertise

The South Australian Power Networks faced serious energy-related challenges. In just six months, they experienced multiple power outages, and the grid stability itself was at risk because of the significant reliance upon wind power—which was intermittent. As a related challenge, they needed to boost supplemental power supply to meet energy demands during peak summer times.

The reality is that, as energy infrastructure ages, they become more inefficient, also requiring more maintenance—which can boost operations cost. Emissions are likely poor in aging infrastructure, which presents challenges, especially in more developed countries with more stringent regulations. Here are specifics about what happened in South Australia.

The crisis began on July 7, 2016, when a sudden dip in wind destabilized the South Australia power grid. The dip was so significant that the entire state was plunged into darkness, with this blackout having major financial implications in the millions of dollars for energy-intensive industries.

On September 28, power generation equipment was damaged by severe thunderstorms accompanied by wind gusts up to 260 kilometers per hour, causing the second blackout. Nine of the state’s 13 operating wind farms shut down, instantly reducing overall power supply by 15%.

In December, a third power outage, although a smaller one, was the final impetus for South Australia’s government to announce a long-term energy strategy. This included the usage of mobile power plants to protect against future power outages and blackouts.

In 2017, SA Power Networks contracted with APR Energy to install nine GE TM2500 Gen8 mobile gas turbines in two sites by Adelaide in time for sweltering summer temperatures. This would provide generating capacity of 276MW.

Mobile gas turbines were selected to take advantage of multiple benefits:

• Their fast-start capability and in-built Power System Stabilizer technology play a crucial role in grid stability maintenance; this supports South Australia’s high reliance on intermittent renewable energy by:
  • rapidly injecting large power blocks
  • supporting grid voltage and frequency levels
• They provide significant environmental benefits, including:
  • up to 94% lower NOx emissions
  • significantly less carcinogenic particulate matter
  • 20% less noise than the typical emissions-intensive diesel reciprocating engines
• These mobile gas turbines can seamlessly transition to natural gas.

These two plants were commissioned in early November, about three months after the first turbines were shipped, with completion well ahead of the deadline of December 1.

When Considering Power Generating Companies

We invite you to contact APR Energy online or by calling +1 (904) 223 2278 to benefit from our proven global results. To date, we have already delivered nearly 5GW of power capacity to more than 35 countries, worldwide.

Rapid power solutions are needed for numerous reasons, with two of the most urgent including military and natural disaster applications. Here’s insight into why that’s so, along with an APR Energy case study to illustrate each application and why our power units were selected.

Military Power Solution Case Study

The U.S. Navy needed a rapid power solution for an energy-intensive research, development, and testing program. It also had to be reliable, mobile, and able to perform in demanding environments. After bids were collected, APR Energy was selected in February 2017. APR Energy was chosen because we could efficiently meet their demand for temporary power generation for energy-intensive testing through the use of low-emission generation that could meet strict environmental requirements.

Because of delays with their permanent energy plant, the U.S. Navy needed 20MW of baseload power that could be operational just one month after the arrival of our aeroderivative mobile gas turbines, fueled by natural gas.

Then, a blizzard hit, dumping more than a foot of snow. This happened in mid-March, right when our mobile gas turbine arrived by ship. But, despite this severe weather, the turbine was delivered the following day, and the installation process began immediately. And, even in these conditions, the baseload power was provided on a three-week timeline, with APR Energy meeting the U.S. Navy’s aggressive schedule. Here, you can find more information about our military power solution case study.

Benefits of choosing us for military power include:

• Reliable and efficient auxiliary power
• Dedicated power for remote bases
• Disaster relief capabilities with rapidly deployable power
• Auxiliary power, needed for forward deployment to new locations and when ships dock in foreign ports Flexible mobile technology
• Health/safety/environmental leadership
• Full-service turnkey plants
• Scalable from 2MW to 50MW+
• Rapidly deployable power worldwide

Power is often rapidly needed for military applications. When natural disasters occur, response time can be just as crucial.

Natural Disaster Power Solution Case Study

On September 20, 2017, the island of Puerto Rico was pummeled by a direct hit from Hurricane Maria, with this intense storm lashing out with winds of 155 mph when the massive hurricane hit land. The entire island plunged into darkness and, because of its aging infrastructure, this left behind true devastation. Therefore, a need existed for a rapid power module solution that would stabilize the fragile grid and provide generating capacity.

Fortunately, the team at APR Energy had already moved some of our newest-generation GE TM2500 mobile gas turbines to the region as a proactive measure. We also contacted federal and Puerto Rican authorities in mid-September to ensure they were aware of our ability to provide them with an emergency power supply.

Weeks later, more than 90 percent of residents were still without electricity, with the island lacking safe food and medical storage, communication devices and more. On October 12, APR Energy was hired by the U.S. Army Corps of Engineers to rapidly install and operate two mobile gas turbines.

This technology was chosen over smaller diesel reciprocating engines for these reasons:

• High power density
• Significantly lower emissions
• Grid-stabilizing abilities
• Reduced risk of blackouts
• Ability to switch from diesel to (lower cost) natural gas once fuel was available

Seventeen days after APR Energy was hired, both units were completely operational. This is one of the fastest mobile gas turbine installations to date. This 60MW plant restored electricity to thousands of structures, including hospitals, schools, homes, and businesses. You can read the entire natural disaster power solution case study to find more information about how our rapidly deployed and installed emergency power supply served as a vital step in the rebuilding of Puerto Rico.

Contact APR Energy for Rapid Mobile Energy Services

If you are in need of rapid mobile energy services, contact us online today. No two situations are the same and we look forward to helping you with your unique power needs.