Search

Mathematical Tools Measure If Wave-Energy Devices Will Stay Afloat - Texas A&M University Today

pandangsa.blogspot.com
A wave breaks on a beach

Texas A&M researchers can now predict if wave-energy devices will capsize mid-ocean.


Getty Images

Ocean waves represent an abundant source of renewable energy. But to best use this natural resource, wave-energy converters need to be capable of physically handling ocean waves of different strengths without capsizing.

Texas A&M University researchers have developed analytical tools that can help characterize the movements of floating but anchored wave-energy devices. Unlike complicated simulations that are expensive and time-consuming, they said their technique is fast, yet accurate enough to estimate if wave-energy devices will turn over in an ever-changing ocean environment.

“Wave-energy converters need to take advantage of large wave motions to make electricity. But when a big storm comes, you don’t want big wave, wind and current motions to destroy these devices,” said Jeffrey Falzarano, professor in the Department of Ocean Engineering. “We have developed much simpler analytical tools to judge the performance of these devices in a dynamic ocean environment without necessitating massive amounts of simulations or physical model tests that take a lot of time to run and are cost-prohibitive.”

The mathematical tools are described online in the journal Ships and Offshore structures in July.

Wave-energy devices function in two modes. In “normal” mode,” they convert the energy from tidal waves into electricity. This mode largely determines whether the design of the wave-energy device is economically efficient. However, in “survival” mode, or when incident waves cause large motions in the wave-energy devices, the performance of the wave-energy devices is largely determined by a system of moorings that anchor the devices to a location at the bottom of the body of water.

There are several types of moorings, including wharfs and anchor buoys, and can be arranged in different configurations. In addition, there are considerable variations in the shape of wave-energy devices, making the prediction of whether the device will capsize nontrivial.

“Ships come in a variety of shapes and sizes; tankers, for example, are very different from fishing vessels or other military ships. These different geometries affect the ship’s motion in the water,” Falzarano said. “Similarly, the shape of wave-energy devices can be quite diverse.”

For the analysis, Hao Wang, Falzarano’ s graduate student, used a cylindrical wave-energy device. This generic shape allowed the researchers to simplify the problem of prediction and extended their analysis to other wave-energy converters of similar shape. He also considered three mooring configurations.

Hao used two analytical methods, the Markov and Melnikov approaches, to predict the risks of turning over under random excitation. More specifically, using information from the wave-energy device’s geometry, the configuration of the mooring system and tidal wave properties, the methods yield a graph containing an envelope-like region. Intuitively, if the waves are very large, like during a storm, and the floating vessel escapes this envelope, it will likely turnover.

The researchers noted that although the analytical models were completely different, they yielded almost the same results, validating their merit and accuracy. They also said that their mathematical approach can be applied to assess the performance of other floating devices, such as floating wind turbines.

“The platform for a floating wind turbine is the same as the one for wave-energy devices, and so floating turbines can also pitchpole or turnover if the waves are very high,” Falzarano said. “My group has been leaders in developing methods for predicting ship stability. We’re now looking at applying those approaches to renewable, floating energy devices.”

Let's block ads! (Why?)



"device" - Google News
October 16, 2020 at 04:51AM
https://ift.tt/3k3Iskq

Mathematical Tools Measure If Wave-Energy Devices Will Stay Afloat - Texas A&M University Today
"device" - Google News
https://ift.tt/2KSbrrl
https://ift.tt/2YsSbsy

Bagikan Berita Ini

0 Response to "Mathematical Tools Measure If Wave-Energy Devices Will Stay Afloat - Texas A&M University Today"

Post a Comment

Powered by Blogger.