| Main Title |
Roadway kinetic energy capture and conversion / |
| Author |
Kaya, Savas
|
| Other Authors |
|
| Publisher |
Ohio Department of Transportation, Office of Statewide Planning & Research, |
| Year Published |
2019 |
| OCLC Number |
1134620713 |
| Subjects |
Energy harvesting ;
Renewable energy sources ;
Transportation--Environmental aspects ;
Roads--Ohio
|
| Internet Access |
|
| Holdings |
| Library |
Call Number |
Additional Info |
Location |
Last
Modified |
Checkout
Status |
| ELBM |
TK2897.R63 2019 |
|
AWBERC Library/Cincinnati,OH |
01/06/2020 |
|
| Collation |
32 pages : color illustrations ; 28 cm |
| Notes |
Final report. Sponsoring agency: Ohio Department of Transportation, Office of Statewide Planning & Research; State Job Number 135778 "July 2019." "Phase 1 final report." Includes bibliographical references (pages 11-13). Paper printout from PDF. |
| Contents Notes |
Alternative energy generating assets, such as solar, piezoelectric, electrostatic and electrodynamic generators and wind turbines in and along the highways can capture and convert otherwise wasted ambient energy, which may provide an opportunity to reduce cost, prepare for future needs and even generate revenue. In this Phase-1 project, a review of technologies for energy harvesting is presented, along with an analysis of possible assets and relevant applications, to indicate how ODOT can benefit from this rapidly expanding and maturing field. Following brief background information framing the nature and relative density of ambient energy sources, general requirements for energy harvesting and principles adapted for this report are introduced. Subsequently, three major tasks for the project are used to analyze the potential and challenges of energy harvesting technologies for ODOT. It is emphasized that energy harvesting within the transportation infrastructure presents new challenges and opportunities, which can be adequately tackled not by a single technology or device but an energy-harvesting ecosystem in which a range of more established as well as up and coming technologies, each of which have unique strengths and particular weaknesses, are integrated side-by-side. Particularly, solar and wind-based devices have a significant lead in power density, installation and operational cost and total energy potential that set them apart from newer, more compact devices that truly benefit from vehicular driven vibrational energy sources such as piezoelectric and linear electromagnetic generators. It is recommended that ODOT continues to invest in energy harvesting technologies in general as they are maturing and expanding rapidly to offer viable energy solutions, especially in hybrid schemes that co-integrates several technologies such as solar, wind and piezoelectric in a complementary fashion. This will not only initiate the learning curve for adaption of energy harvesting toolset, it will also provide data for critical decisions for large-scale projects necessary for smart transportation systems with embedded sensors and self-driving electric vehicles expected to proliferate significantly in the next decade. It is further recommended that ODOT determine intended locations for eventual field testing, since energy harvesting will always require a degree of custom design and a truly effective hybrid solutions will be dependent on intended locations. |
| Place Published |
Columbus, Ohio |
| Corporate Au Added Ent |
Ohio. Department of Transportation,; Ohio. Department of Transportation. Office of Statewide Planning & Research,; Ohio University. Department of Civil Engineering.; University of Akron. Department of Civil Engineering.; United States. Federal Highway Administration. |
| PUB Date Free Form |
2019 |
| BIB Level |
m |
| Medium |
unmediated |
| Content |
text |
| Carrier |
volume |
| Cataloging Source |
RDA |
| OCLC Time Stamp |
20200103055321 |
| Language |
eng |
| Origin |
OCLC |
| Type |
CAT |
| OCLC Rec Leader |
05185nam 2200577Ki 45010 |
