Title :
Environmentally conscious design of autonomous power supplies for distributed micro-systems
Author :
Benecke, S. ; Rueckschloss, J. ; Middendorf, A. ; Nissen, Nils F. ; Lang, Klaus-Dieter
Author_Institution :
Dept. Sustainable Technol., Berlin Inst. of Technol. (TU Berlin), Berlin, Germany
Abstract :
Availability of energy supply and environmental benefits are fundamental requirements for replacement of batteries with energy harvesting systems in future micro-system applications. Environmentally conscious solutions require a profound understanding of the interdependencies between ambient conditions, system-behavior and environmental impacts associated with the specific technology chosen. In this paper we present the results of an environmental evaluation of a thermoelectric and piezoelectric energy harvesting system considering different realistic scenarios of ambient conditions. Screening methods focusing on the material content´s toxicity and scarcity are applied to evaluate the proposed solutions in comparison to the conventional use of Li-based batteries.
Keywords :
battery storage plants; distributed power generation; energy harvesting; environmental factors; lithium; thermoelectric conversion; Li; Li-based batteries; autonomous power supplies; distributed micro-systems; energy harvesting systems; energy supply; environmentally conscious design; micro-system applications; piezoelectric energy harvesting system; thermoelectric energy harvesting system; Acceleration; Batteries; Energy harvesting; Fasteners; Materials; Metals; Resonant frequency; Energy harvesting; resource availability and risk indicator; toxic potential;
Conference_Titel :
Sustainable Systems and Technology (ISSST), 2012 IEEE International Symposium on
Conference_Location :
Boston, MA
Print_ISBN :
978-1-4673-2003-0
DOI :
10.1109/ISSST.2012.6227978
