哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
JOURNAL OF HARBIN ENGINEERING UNIVERSITY
2014年
7期
789-794
,共6页
宁德志%石进%滕斌%赵海涛
寧德誌%石進%滕斌%趙海濤
저덕지%석진%등빈%조해도
振荡水柱%源造波技术%高阶边界元%时域分析%能量转换效率%前墙尺寸%气室%共振
振盪水柱%源造波技術%高階邊界元%時域分析%能量轉換效率%前牆呎吋%氣室%共振
진탕수주%원조파기술%고계변계원%시역분석%능량전환효솔%전장척촌%기실%공진
oscillating water column%source generation technique%higher-order boundary element method%time-domain analysis%energy conversion efficiency%front wall size%chamber%resonance
针对岸式振荡水柱波能转换装置( OWC)的能量转换效率问题,采用基于域内源造波技术的时域高阶边界元方法( HOBEM),同时在气室内引入压强模型耦合气液相互作用,建立了自由水面满足完全非线性边界条件的二维时域数值波浪水槽模型。通过数值计算研究了岸式振荡水柱波能转换装置的前墙入水深度、前墙厚度、气室宽度及入射波要素对气室内波能转换效率的影响。结果表明:岸式振荡水柱波能转换装置存在一个明显的共振区间,前墙入水深度、厚度与气室宽度的减小均会导致共振频率的增大;前墙尺寸的变化对低频区能量转换效率的影响很小,而气室宽度的变化会影响整个工作频率区间的能量转换效率。
針對岸式振盪水柱波能轉換裝置( OWC)的能量轉換效率問題,採用基于域內源造波技術的時域高階邊界元方法( HOBEM),同時在氣室內引入壓彊模型耦閤氣液相互作用,建立瞭自由水麵滿足完全非線性邊界條件的二維時域數值波浪水槽模型。通過數值計算研究瞭岸式振盪水柱波能轉換裝置的前牆入水深度、前牆厚度、氣室寬度及入射波要素對氣室內波能轉換效率的影響。結果錶明:岸式振盪水柱波能轉換裝置存在一箇明顯的共振區間,前牆入水深度、厚度與氣室寬度的減小均會導緻共振頻率的增大;前牆呎吋的變化對低頻區能量轉換效率的影響很小,而氣室寬度的變化會影響整箇工作頻率區間的能量轉換效率。
침대안식진탕수주파능전환장치( OWC)적능량전환효솔문제,채용기우역내원조파기술적시역고계변계원방법( HOBEM),동시재기실내인입압강모형우합기액상호작용,건립료자유수면만족완전비선성변계조건적이유시역수치파랑수조모형。통과수치계산연구료안식진탕수주파능전환장치적전장입수심도、전장후도、기실관도급입사파요소대기실내파능전환효솔적영향。결과표명:안식진탕수주파능전환장치존재일개명현적공진구간,전장입수심도、후도여기실관도적감소균회도치공진빈솔적증대;전장척촌적변화대저빈구능량전환효솔적영향흔소,이기실관도적변화회영향정개공작빈솔구간적능량전환효솔。
In order to investigate the energy conversion efficiency of a land-based oscillating water column ( OWC) , a two-dimensional time-domain numerical flume model has been founded based on a time-domain higher-order boundary element method ( HOBEM) with wave generation by the inner-domain source. Within the numerical mod-el, the pressure model is applied in the chamber and the fully nonlinear boundary conditions are satisfied on the free surface. Numerical experiments are performed to study the effects of the immersion depth and thickness of the front wall, width of the chamber and the various wave conditions on the energy conversion efficiency in the cham-ber. The numerical results show that there is a resonant region for the land-based oscillating water column wave en-ergy conversion device, and decreases of the immersion depth, thickness of the front wall, and the width of the chamber will increase the resonant frequency. The changes of the front wall size have little effect on energy conver-sion efficiency in the low-frequency region;however, the change of the chamber width influences the energy con-version efficiency in the whole working frequency region.