Wind Turbine-Building Robots, 3D Printing Underwater Turbine Tech, and Turning Corn Stover Into Fuel for Planes

Podcast

Title: Wind Turbine-Building Robots, 3D Printing Underwater Turbine Tech, and Turning Corn Stover Into Fuel for Planes

Author:

Jeromin, K.; Mankle, T.

Publication Date:

May 29, 2024

Podcast Series:

The NREL Podcast

Episode Number:

Running Time:

11:34

Affiliation

National Renewable Energy Laboratory (NREL)

Technology:

Wind Energy

Receptor:

Human Dimensions

Language:

English

Document Access

Website:

External Link

Citation

APA
BibTex
RIS

Jeromin, K.; Mankle, T. (2024). Wind Turbine-Building Robots, 3D Printing Underwater Turbine Tech, and Turning Corn Stover Into Fuel for Planes (24) [Audio podcast]. In The NREL Podcast. Retrieved from https://transformingenergy.buzzsprout.com/2202535/episodes/15149153-wind-turbine-building-robots-3d-printing-underwater-turbine-tech-and-turning-corn-stover-into-fuel-for-planes

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author = {Jeromin, K and Mankle, T},
title = {Wind Turbine-Building Robots, 3D Printing Underwater Turbine Tech, and Turning Corn Stover Into Fuel for Planes},
maintitle = {The NREL Podcast},
year = {2024},
month = {may},
url = {https://transformingenergy.buzzsprout.com/2202535/episodes/15149153-wind-turbine-building-robots-3d-printing-underwater-turbine-tech-and-turning-corn-stover-into-fuel-for-planes},
keywords = {Wind Energy, Human Dimensions},
}

Export Citation to BibTex

TY - GEN
TI - Wind Turbine-Building Robots, 3D Printing Underwater Turbine Tech, and Turning Corn Stover Into Fuel for Planes
T2 - The NREL Podcast
AU - Jeromin, K
AU - Mankle, T
AB - This episode discusses three recent stories from NREL: Researchers have successfully utilized robotic assistance in the manufacture of wind turbine blades, aiming to eliminate challenging working conditions for humans and enhance product consistency. By automating trimming, grinding, and sanding processes, the study not only improves workplace safety but also supports the economic viability of domestic blade manufacturing, potentially leading to increased job opportunities within the United States. Research has uncovered a groundbreaking synergy between marine energy and additive manufacturing, commonly known as 3D printing, unveiling a potential solution to enhance tidal turbine technologies. By harnessing stainless steel material and laser metal deposition, they aim to fortify tidal turbine spars, the backbone of underwater turbines, against the relentless forces of the ocean, potentially revolutionizing maintenance practices and bolstering energy resilience for coastal communities. This innovation promises rapid deployment and accessibility, empowering localities to swiftly address energy needs and foster sustainability in marine environments. SAFFiRE Renewables plans to utilize NREL’s DMR technology to convert agricultural residue into scalable biofuel, significantly reducing carbon footprints in aviation. With a pilot plant set to handle 10 tons of corn stover daily and produce 300,000 gallons of cellulosic ethanol annually, this collaboration marks a pivotal step towards commercializing sustainable aviation fuel and fostering energy resilience.
DA - 2024/05//
PY - 2024
PB - National Renewable Energy Laboratory (NREL)
IS - 24
UR - https://transformingenergy.buzzsprout.com/2202535/episodes/15149153-wind-turbine-building-robots-3d-printing-underwater-turbine-tech-and-turning-corn-stover-into-fuel-for-planes
LA - English
KW - Wind Energy
KW - Human Dimensions
ER -

Export Citation to RIS

Abstract

This episode discusses three recent stories from NREL:

Researchers have successfully utilized robotic assistance in the manufacture of wind turbine blades, aiming to eliminate challenging working conditions for humans and enhance product consistency. By automating trimming, grinding, and sanding processes, the study not only improves workplace safety but also supports the economic viability of domestic blade manufacturing, potentially leading to increased job opportunities within the United States.
Research has uncovered a groundbreaking synergy between marine energy and additive manufacturing, commonly known as 3D printing, unveiling a potential solution to enhance tidal turbine technologies. By harnessing stainless steel material and laser metal deposition, they aim to fortify tidal turbine spars, the backbone of underwater turbines, against the relentless forces of the ocean, potentially revolutionizing maintenance practices and bolstering energy resilience for coastal communities. This innovation promises rapid deployment and accessibility, empowering localities to swiftly address energy needs and foster sustainability in marine environments.
SAFFiRE Renewables plans to utilize NREL’s DMR technology to convert agricultural residue into scalable biofuel, significantly reducing carbon footprints in aviation. With a pilot plant set to handle 10 tons of corn stover daily and produce 300,000 gallons of cellulosic ethanol annually, this collaboration marks a pivotal step towards commercializing sustainable aviation fuel and fostering energy resilience.