What does TWERLE mean in OCEAN SCIENCE
TWERLE stands for Tropical Wind, Energy Conversion and Reference Level Experiment. This experiment was initiated in the mid-1980s to study the conversion of wind energy into electrical energy in tropical regions. The experiment was conducted by scientists at the University of Oregon with the aim of uncovering new ways to increase the efficiency and reliability of wind turbines used in renewable energy production. By studying the interaction between winds and yearly cycles, they hoped to create better designs that could produce more electricity from less wind power.
TWERLE meaning in Ocean Science in Academic & Science
TWERLE mostly used in an acronym Ocean Science in Category Academic & Science that means Tropical Wind, Energy Conversion and Reference Level Experiment
Shorthand: TWERLE,
Full Form: Tropical Wind, Energy Conversion and Reference Level Experiment
For more information of "Tropical Wind, Energy Conversion and Reference Level Experiment", see the section below.
Experiment
The TWERLE experiment involved collecting data on different types of winds and their relation to monthly weather patterns. Specialized instruments were installed on top of tall towers located throughout tropical regions such as India, Mexico, and Brazil. These sensors monitored variables like wind speed, direction, temperature, humidity, air pressure, and solar radiation levels over a period of several months or even years. Over time, these readings were used to create detailed maps showing how various features (such as mountains or valleys) affect wind direction and velocity in various parts of the world.
Results
The data gathered through this experiment helped shed light on many issues related to renewable energy production in tropical climates. For example, researchers discovered that air flow patterns around large obstacles (such as mountains) can cause turbulent turbulence that reduces the overall efficiency of a turbine system significantly. Furthermore, they found that certain areas experience higher rates of static electricity than others due to differences in solar radiation levels or other factors. Finally, they were able to isolate different factors that contribute to strong winds which allowed them to develop more efficient turbines that could generate more power with less effort from wind sources.
Essential Questions and Answers on Tropical Wind, Energy Conversion and Reference Level Experiment in "SCIENCE»OCEAN"
What is TWERLE?
TWERLE is an acronym for Tropical Wind, Energy Conversion and Reference Level Experiment. It is a research experiment that seeks to explore how wind and ocean energy conversion can be used to generate renewable electricity.
Who is leading the experiment?
The experiment is led by scientists from the Renewable Energy Research Centre at the University of Leicester, along with their research partners from the Indian Institute of Science in Bangalore.
Where does the experiment take place?
The experiment takes place in India’s southern state of Karnataka, in an area off the coast of Malpe beach near Udupi.
What are the objectives of this experiment?
The main objectives of this experiment are to investigate changes in wind power generation, variations in water levels and wave height, assess tidal power potential for electricity generation and develop reference data sets for renewable energy applications.
What kind of equipment is used during the experiment?
During this experiment, researchers use high-tech equipment like sonar systems, acoustic Doppler current profilers (ADCP), buoy-based sensors and numerical models to measure wind speed and collect other important data about waves and currents.
How long will it take to conduct this experiment?
This experiment is expected to run for approximately two years, beginning in 2021.
What techniques will be used during TWERLE?
During TWERLE researchers will use methods such as advanced remote sensing techniques, numerical modelling approaches as well as computational fluid dynamics simulations to analyze ocean data collected from buoys or other sources.
What type of results should we expect after completion of this study?
After completion of the study researchers anticipate having gathered comprehensive data pertaining to changes in wind power generation, differences found between different wave heights and depths among other things. They believe these results could prove vital for devising further strategies for using ocean energy as an alternative source of renewable power.
What new technologies might emerge from this project?
Researchers involved with TWERLE hope that new analytical tools and predictive models could come out of their work that would help inform decision making related to future investments in clean energy infrastructure like turbines or other offshore technologies. Additionally, they believe that new methods concerning improved hydrological forecasting or efficient resource management may be developed as well.
Final Words:
Overall, the results from the TWERLE experiment provided valuable insights into how wind turbines can be designed and operated for maximum efficiency in tropical climates where high winds are common but often unpredictable. By understanding how various environmental factors affect energy production potentials for each geographic area, engineers have been able to improve existing turbines so they can produce more energy with less effort while still being reliable enough for long-term use. The knowledge gained during this experiment has been used to inform design decisions made for both individual turbines and larger turbine systems around the world today.