Scientific Research An Academic Publisher
OPEN ACCESS
Add your e-mail address to receive free newsletters from SCIRP.
Select Journal AA AAD AAR AASoci AAST ABB ABC ABCR ACES ACS ACT AD ADR AE AER AHS AID AiM AIT AJAC AJC AJCC AJCM AJIBM AJMB AJOR AJPS ALAMT ALC ALS AM AMI AMPC ANP APD APE APM ARS ARSci AS ASM BLR CC CE CellBio ChnStd CM CMB CN CRCM CS CSTA CUS CWEEE Detection EMAE ENG EPE ETSN FMAR FNS GEP GIS GM Graphene GSC Health IB ICA IIM IJAA IJAMSC IJCCE IJCM IJCNS IJG IJIDS IJIS IJMNTA IJMPCERO IJNM IJOC IJOHNS InfraMatics JACEN JAMP JASMI JBBS JBCPR JBiSE JBM JBNB JBPC JCC JCDSA JCPT JCT JDAIP JDM JEAS JECTC JEMAA JEP JFCMV JFRM JGIS JHEPGC JHRSS JIBTVA JILSA JIS JMF JMGBND JMMCE JMP JPEE JQIS JSBS JSEA JSEMAT JSIP JSS JSSM JST JTR JTST JTTs JWARP LCE MC ME MI MME MNSMS MPS MR MRC MRI MSA MSCE NJGC NM NR NS OALib OALibJ ODEM OJA OJAB OJAcct OJAnes OJAP OJApo OJAppS OJAPr OJAS OJBD OJBIPHY OJBM OJC OJCB OJCD OJCE OJCM OJD OJDer OJDM OJE OJEE OJEM OJEMD OJEpi OJER OJF OJFD OJG OJGas OJGen OJI OJIC OJIM OJINM OJL OJM OJMC OJMetal OJMH OJMI OJMIP OJML OJMM OJMN OJMP OJMS OJMSi OJN OJNeph OJO OJOG OJOGas OJOp OJOph OJOPM OJOTS OJPathology OJPC OJPChem OJPed OJPM OJPP OJPS OJPsych OJRA OJRad OJRD OJRM OJS OJSS OJSST OJST OJSTA OJTR OJTS OJU OJVM OPJ POS PP PST PSYCH SAR SCD SGRE SM SN SNL Soft SS TEL TI UOAJ VP WET WJA WJCD WJCMP WJCS WJET WJM WJNS WJNSE WJNST WJV WSN YM
More>>
Gao, M. (2010) Energy Harvesting for Autonomous Systems. Thermoelectric Energy Harvesting, 2010, 135-157.
has been cited by the following article:
TITLE: Flat Panel Solar Thermoelectric System Size Optimisation at Different Vacuum Levels
AUTHORS: Kazuz Ramadan
KEYWORDS: Flat Roof Top Solar Collector, Hybrid Solar Thermoelectric System, The Optimal Heat and Electric Power, Seebeck Effect, Aspect Ratio, Vacuum Levels
JOURNAL NAME: Open Journal of Energy Efficiency, Vol.4 No.4, November 24, 2015
ABSTRACT: A systematic experimental investigation to understand the effect of heat loss and the thermoelectric aspect ratio (cross sectional area and length) on a flat plate solar thermoelectric system performance was carried out. The investigation involved a series of experiments on systems with 4 different sizes of thermoelectric generators, and it was tested in 5 different vacuum levels during the steady-state. The detailed experimental investigation provided a substantial amount of data, which revealed that the system performance of both heat and electricity power were improved when the heat lost was minimised. The system’s performance strongly depended on the aspect ratio of the thermoelectric generators. This finding might have a significant impact on the cost of the system by saving the user’s and the manufacturer’s time in examining different TEGs with different aspect ratios in order to get the optimum size optimisation of the hybrid system, as well as reduce the manufacturing cost.
Related Articles:
New Wideband Passive and Active Wearable Energy Harvesting Systems for Wearable Sensors
Albert Sabban
DOI: 10.4236/jst.2017.74004 714 Downloads 1,224 Views Citations
Pub. Date: December 7, 2017
An Investigation of Wideband Rectennas for Wireless Energy Harvesting
Jing-Wei Zhang, Yi Huang, Ping Cao
DOI: 10.4236/wet.2014.54012 5,734 Downloads 7,343 Views Citations
Pub. Date: October 8, 2014
On Piezoelectric Energy Harvesting from Human Motion
Chunhua Sun, Guangqing Shang, Hongbing Wang
DOI: 10.4236/jpee.2019.71008 739 Downloads 1,697 Views Citations
Pub. Date: January 30, 2019
Multi-Direction Piezoelectric Energy Harvesting Techniques
Chunhua Sun, Guangqing Shang
DOI: 10.4236/jpee.2019.79003 424 Downloads 813 Views Citations
Pub. Date: September 18, 2019
Quad-Band Rectenna for RF Energy Harvesting System
Dalia Elsheakh, Mina Farouk, Hala Elsadek, Hani Ghali
DOI: 10.4236/jemaa.2020.125006 200 Downloads 560 Views Citations
Pub. Date: May 28, 2020
