新能源进展
新能源進展
신능원진전
Advances in New and Renewable Enengy
2014年
4期
295-304
,共10页
增强型地热系统(EGS)%数值模拟%等效分层多孔介质%非均质性
增彊型地熱繫統(EGS)%數值模擬%等效分層多孔介質%非均質性
증강형지열계통(EGS)%수치모의%등효분층다공개질%비균질성
enhanced geothermal systems (EGS)%numerical simulation%equivalent stratified porous medium%heterogeneity
由于岩石构造不同、天然裂隙的差异以及压裂过程的随机性等因素,增强型地热系统(EGS)人工热储通常具有较强的非均质性。探究热储的非均质性对EGS热开采过程的影响,对EGS性能预测与分析评价有重要意义。论文考虑到热储沿深度方向的非均质性,基于等效分层多孔介质物理模型,并使用自主开发的EGS数值模型,模拟了多个具有分层热储EGS的长期运行过程,发现热储深度方向上非均质性对热能的开采影响显著,而流量分布的不均匀性是导致系统采热性能下降的主要原因。为了方便分析和评价,我们建立一种新的定量化描述热储非均质性的方法,然后基于更多的非均质热储EGS算例结果,拟合得到EGS采热性能与热储非均质性的定量关系式。
由于巖石構造不同、天然裂隙的差異以及壓裂過程的隨機性等因素,增彊型地熱繫統(EGS)人工熱儲通常具有較彊的非均質性。探究熱儲的非均質性對EGS熱開採過程的影響,對EGS性能預測與分析評價有重要意義。論文攷慮到熱儲沿深度方嚮的非均質性,基于等效分層多孔介質物理模型,併使用自主開髮的EGS數值模型,模擬瞭多箇具有分層熱儲EGS的長期運行過程,髮現熱儲深度方嚮上非均質性對熱能的開採影響顯著,而流量分佈的不均勻性是導緻繫統採熱性能下降的主要原因。為瞭方便分析和評價,我們建立一種新的定量化描述熱儲非均質性的方法,然後基于更多的非均質熱儲EGS算例結果,擬閤得到EGS採熱性能與熱儲非均質性的定量關繫式。
유우암석구조불동、천연렬극적차이이급압렬과정적수궤성등인소,증강형지열계통(EGS)인공열저통상구유교강적비균질성。탐구열저적비균질성대EGS열개채과정적영향,대EGS성능예측여분석평개유중요의의。논문고필도열저연심도방향적비균질성,기우등효분층다공개질물리모형,병사용자주개발적EGS수치모형,모의료다개구유분층열저EGS적장기운행과정,발현열저심도방향상비균질성대열능적개채영향현저,이류량분포적불균균성시도치계통채열성능하강적주요원인。위료방편분석화평개,아문건립일충신적정양화묘술열저비균질성적방법,연후기우경다적비균질열저EGS산례결과,의합득도EGS채열성능여열저비균질성적정량관계식。
Strong heterogeneity exists in enhanced geothermal systems (EGS) artificial heat reservoir due to factors such as different rock formations, the pre-existence of natural fractures and the uncertainty of stimulation process. Exploring the influence of reservoir heterogeneity on EGS heat extraction is of great importance for predicting and comprehensively evaluating the performance of EGS. In this paper, we take the reservoir as an equivalent stratified porous medium and employ the previously self-developed numerical model to conduct a series of simulations of the long-term heat extraction process of EGSs with different reservoir porosity distributions. Results indicate that the heat extraction performance is significantly affected by the reservoir heterogeneity. To facilitate the analysis and evaluation, we derive a formula to quantitatively describe the heterogeneity of the reservoir based on a detailed analysis to the effects of the fluid seepage flow field on the heat extraction performance. Further, we obtain a quantitative relationship of EGS heat extraction performance versus reservoir heterogeneity by fitting the calculated results from 30 cases, in which the stratified reservoirs are randomly assigned with differing porosity distributions.