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¡¶¼¯ÃÀ´óѧѧ±¨£¨×ÔÈ»¿Æѧ°æ£©¡·[ISSN:1007-7405/CN:35-1186/N]

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2024ÄêµÚ1ÆÚ

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54-63

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2024-01-28

ÎÄÕÂÐÅÏ¢/Info

Title:

Design and Semi-Physical Experiment of an Impulse Wave Energy Triboelectric Nanogeneratorª¤

×÷Õß:

ÅËÀÚ1; 2; ·¶½¡Óî1; 2; ÑîÉÜ»Ô1; 2; 3; ¿Â½­ÑÒ1; 2; ¶ÅÖ¾²ý1; 2; ÀîêÍ1; 2; 3

1.¼¯ÃÀ´óѧº£Ñó×°±¸Óë»úе¹¤³ÌѧԺ£¬¸£½¨ ÏÃÃÅ 361021£»2.º£Ñó¿ÉÔÙÉúÄÜÔ´×°±¸¸£½¨Ê¡¸ßУÖصãʵÑéÊÒ£¬¸£½¨ ÏÃÃÅ 361021£»3.¸£½¨Ê¡ÄÜÔ´Çå½àÀûÓÃÓ뿪·¢ÖصãʵÑéÊÒ£¬¸£½¨ ÏÃÃÅ 361021

Author(s):

PAN Lei1; 2; FAN Jianyu1; 2; YANG Shaohui1; 2;  3;  KE Jiangyan1; 2;  DU Zhichang1; 2;  LI hui1; 2; 3

1. College of Marine Equipment and Mechanical Engineering, Jimei University, Xiamen 361021 China; 2. Fujian Province Key Laboratory of Energy Cleaning Utilization and Development, Xiamen 361021 China; 3. Cleaning Combustion and Energy Utilization Research Center of Fujian, Xiamen 361021 China

¹Ø¼ü´Ê:

²¨ÀËÄÜ; ¿ÕÆø͸ƽ; Ä¦²ÁÄÉÃ×·¢µç»ú£¨TENG£©; Õñµ´Ë®Öù

Keywords:

wave energy; air turbine; triboelectric nanogenerator (TENG); oscillating water column

·ÖÀàºÅ:

-

DOI:

-

ÎÄÏ×±êÖ¾Âë:

A

ÕªÒª:

Ìá³ö²¢Éè¼ÆÁËÒ»ÖÖ»ùÓÚ³å»÷ʽ¿ÕÆø͸ƽµÄ²¨ÀËÄÜĦ²ÁÄÉÃ×·¢µç»ú£¬½«ÆäÓ¦ÓÃÓÚÕñµ´Ë®Öù²¨ÀËÄÜת»»×°ÖÃÖУ¬Äܹ»½«µÍƵµÄº£Ñó²¨ÀËÄܸßЧת»»ÎªµçÄÜ¡£Ïêϸ²ûÊöÁ˸÷¢µç»úµÄ½á¹¹Ó빤×÷Ô­Àí£¬´î½¨ÁËÁ½¸öʵÑéƽ̨£¬·Ö±ð½øÐÐÁ˵缫²ÎÊýÓÅ»¯ÊµÑéºÍµçѧÊä³öÐÔÄÜʵÑ顣ʵÑé½á¹û±íÃ÷£¬ÀûÓþÛËÄ·úÒÒÏ©×÷Ϊµç¼«µÄ½éµç²ÄÁÏ£¬ÆäµçѧÊä³öÐÔÄÜ×îÓÅ£¬ ¾ÛËÄ·úÒÒÏ©µÄºñ¶ÈÔ½´ó£¬µçѧÐÔÄÜÊä³öÔ½ºÃ¡£µ±·¢µç»úµç¼«½Ç¶ÈÖð½¥¼õСʱ£¬¶Ì·µçÁ÷³ÊÉÏÉýÇ÷ÊÆ¡£Éè¼Æ²¢ÖÆÔìÁ˳å»÷ʽ²¨ÀËÄÜĦ²ÁÄÉÃ×·¢µç»ú£¬½øÐÐÁ˵¥·çÏò°ëÎïÀí·ÂÕæʵÑé¡£Ñо¿Á˲»Í¬·çËÙϵĵçѧÊä³öÐÔÄÜ£¬²¢½øÐÐÁ˵çÈݳäµçʵÑ顣ͨ¹ýµç·Éè¼ÆÇý¶¯µãÁÁÁË33ÕµLED¡£ÑéÖ¤Á˳å»÷ʽ²¨ÀËÄÜĦ²ÁÄÉÃ×·¢µç»úµÄ¿É¿¿ÐÔÒÔ¼°¶ÔСÐÍ´«¸ÐÆ÷¹©ÄܵÄDZÁ¦

Abstract:

An impulse air turbine based wave energy triboelectric nanogenerator (impulse wave energy TENG, IW-TENG) is proposed and designed to be applied in an oscillating water column wave energy conversion device, which can efficiently convert low frequency ocean wave energy into electrical energy. The structure and working principle of IW-TENG were elaborated, and two experimental platforms were built to carry out electrode parameter optimization experiments and electrical output performance experiments respectively. The experimental results indicate that using PTFE as the dielectric material of the electrode, the electrical output performance is optimal, and the larger the thickness of PTFE, the better the electrical output performance. When the electrode angle of the generator gradually decreases, the short-circuit current tends to rise.IW-TENG was designed and manufactured to conduct a single-wind direction semi-physical simulation experiment to study the electrical output performance under different wind speeds and conduct a capacitor charging experiment. The circuit design was driven to light up 33 LEDs.The reliability of IW-TENG and its potential to supply energy to small sensors are verified.

²Î¿¼ÎÄÏ×/References:

ÏàËÆÎÄÏ×/References:

[1]Áº½Ü,ÀîêÍ,Ö£½ÝÇì.׶Ðθ¡×ÓÈëË®³å»÷ÊÜÁ¦×´Ì¬µÄÊýֵģÄâ[J].¼¯ÃÀ´óѧѧ±¨(×ÔÈ»¿Æѧ°æ),2016,21(1):60.
¡¡LIANG Jie,LI Hui,ZHENG Jie-qing.Numerical Study on Water Entry Impact of Conical Buoy[J].Journal of Jimei University,2016,21(1):60.
[2]ÀîêÍ,ºÎºêÖÛ,ÑîÉÜ»Ô,µÈ.µãͷѼʽ²¨ÀËÄܲɼ¯×°ÖõÄÊýֵģÄâ[J].¼¯ÃÀ´óѧѧ±¨(×ÔÈ»¿Æѧ°æ),2016,21(5):363.
¡¡LI Hui,HE Hong-zhou,YANG Shao-hui,et al.Numerical Simulation on Salter Duck Wave Energy Converter[J].Journal of Jimei University,2016,21(1):363.

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¸üÐÂÈÕÆÚ/Last Update: 2024-04-25