I’m happy to announce the release of our Quick Start Guide to Drones in Energy. This report is the second in a new series of Skylogic Research white papers, intended to provide a complete primer to drone use in specific industries. This year, we are building on the analysis we did for the 2017 Five Valuable Business Lessons Learned papers by providing guidance and industry-specific resources that will help you kick-start your practice. Our goal is to help drone-based service providers and business users maximize the value that drones can bring to operational groups.
This report consolidates our best insights into the challenges and solutions drones add to inspecting assets that produce and supply energy. We show how drones add value to digital 3-D representation of physical assets and what information companies are gleaning from the data their drones collect.
The paper answers questions like:
- How big is the energy inspection drone market, and who are the major solution providers?
- How are drones used by oil and gas companies, wind and solar farms, and utilities and what challenges must be addressed?
- What do you need to know about regulations, pilot certification, insurance, and training?
- What are the best practices for adopting drones into existing workflows?
Here is an excerpt from the drone use in energy asset inspections section:
“The number keeps growing, but GWEC estimates that there were over 341,000 wind turbines spinning around the world at the end of 2016. Unidentified defects can result in an unexpected catastrophic failure, causing expensive repairs, extended downtime, and associated revenue loss. Revenue losses alone from unexpected catastrophic failures can be as high as $50,000 per turbine.
Companies like AES Corporation and Duke Energy have realized tremendous cost savings using drone inspections. For example, drone-based service provider Measure can automate wind turbine data collection and inspection, making the process cost-effective and reliable. With traditional ground inspection methods, a two-person crew is able to inspect 3–4 turbines in a single day. A drone pilot can inspect 12–15 turbines in the same period. Plus, it’s a lot safer than sending inspectors out on rope harnesses high above the ground.
According to Solarplaza, drones can cut the cost of solar-farm panel inspections to between USD $2,100 and $3,200 a day, covering five acres an hour. According to one published report, a drone can survey 4,000 panels in about five minutes, while a human inspection would take more than eight days at a rate of one panel inspection per minute. The technique involves mounting a high-definition infrared camera on a drone and running the images through an analysis program to detect hotspots that might reveal the presence of faults. Maintenance teams can then visit these hotspot locations directly, without having to survey the entire solar field, which saves on operational costs.”
The 10-page report also provides a SWOT analysis (strengths, weaknesses, opportunities, and threats) for evaluating and designing your drone program and comes with an appendix that includes links to valuable online resources such as attorneys, advocacy groups, training & certification, and waivers & authorizations.
I believe this is the perfect time to get your start using drones in the energy industry like scores of firms worldwide have done. You can get the free report here.
If you have questions about what’s in the report or would like to comment on it after reading it, write me at email@example.com.
Image credit: Emerald Expositions