农业工程学报
農業工程學報
농업공정학보
2014年
20期
306-312
,共7页
李利钦%梁嘉亮%叶盛英%陈雪梅%宋贤良
李利欽%樑嘉亮%葉盛英%陳雪梅%宋賢良
리리흠%량가량%협성영%진설매%송현량
储藏%乙烯%臭氧%正电晕放电%动力学
儲藏%乙烯%臭氧%正電暈放電%動力學
저장%을희%취양%정전훈방전%동역학
storage%ethylene%ozone%positive corona%kinetics
为了解直流正电晕-纳米银沉积纳米TiO2光电催化耦合反应系统降解乙烯及调控臭氧的机理及其动力学规律,该文采用多针对圆筒内壁式电晕放电反应器为对象,在模拟园艺产品的冷藏环境中,进行了纳米TiO2的掺银量、放电功率和气流量等因素对乙烯降解和臭氧控制效果的影响研究。结果表明:建立了正电晕放电耦合活性炭纤维(activated carbon fiber,ACF)负载掺银的纳米TiO2(Ag-TiO2/ACF、Ag-TiO2*/ACF)降解乙烯的动力学模型,通过龙格库塔法数值求解微分方程组和最小二乘法得到动力学模型的反应常数,通过对反应常数比较,正电晕放电耦合 Ag-TiO2*/ACF 催化膜对乙烯降解和控制臭氧浓度具有较优的性能。采用二次旋转组合试验和回归拟合,建立了正电晕放电耦合 Ag-TiO2*/ACF 催化膜的乙烯降解反应常数、臭氧浓度上限的预测值与影响因素关系的二次多项数学模型,验证了模型的有效性,并优化出反应体系参数。研究结果为正直流电晕放电耦合纳米二氧化钛技术在园艺产品贮运保鲜设备中的应用提供了依据。
為瞭解直流正電暈-納米銀沉積納米TiO2光電催化耦閤反應繫統降解乙烯及調控臭氧的機理及其動力學規律,該文採用多針對圓筒內壁式電暈放電反應器為對象,在模擬園藝產品的冷藏環境中,進行瞭納米TiO2的摻銀量、放電功率和氣流量等因素對乙烯降解和臭氧控製效果的影響研究。結果錶明:建立瞭正電暈放電耦閤活性炭纖維(activated carbon fiber,ACF)負載摻銀的納米TiO2(Ag-TiO2/ACF、Ag-TiO2*/ACF)降解乙烯的動力學模型,通過龍格庫塔法數值求解微分方程組和最小二乘法得到動力學模型的反應常數,通過對反應常數比較,正電暈放電耦閤 Ag-TiO2*/ACF 催化膜對乙烯降解和控製臭氧濃度具有較優的性能。採用二次鏇轉組閤試驗和迴歸擬閤,建立瞭正電暈放電耦閤 Ag-TiO2*/ACF 催化膜的乙烯降解反應常數、臭氧濃度上限的預測值與影響因素關繫的二次多項數學模型,驗證瞭模型的有效性,併優化齣反應體繫參數。研究結果為正直流電暈放電耦閤納米二氧化鈦技術在園藝產品貯運保鮮設備中的應用提供瞭依據。
위료해직류정전훈-납미은침적납미TiO2광전최화우합반응계통강해을희급조공취양적궤리급기동역학규률,해문채용다침대원통내벽식전훈방전반응기위대상,재모의완예산품적랭장배경중,진행료납미TiO2적참은량、방전공솔화기류량등인소대을희강해화취양공제효과적영향연구。결과표명:건립료정전훈방전우합활성탄섬유(activated carbon fiber,ACF)부재참은적납미TiO2(Ag-TiO2/ACF、Ag-TiO2*/ACF)강해을희적동역학모형,통과룡격고탑법수치구해미분방정조화최소이승법득도동역학모형적반응상수,통과대반응상수비교,정전훈방전우합 Ag-TiO2*/ACF 최화막대을희강해화공제취양농도구유교우적성능。채용이차선전조합시험화회귀의합,건립료정전훈방전우합 Ag-TiO2*/ACF 최화막적을희강해반응상수、취양농도상한적예측치여영향인소관계적이차다항수학모형,험증료모형적유효성,병우화출반응체계삼수。연구결과위정직류전훈방전우합납미이양화태기술재완예산품저운보선설비중적응용제공료의거。
The quality of horticultural products in cold-storage environment rapidly declines due to its perishability. Ethylene is one of important factors to facilitate the perishing process, because it enhances the respiration intensity and enzymatic activities of horticultural products. We introduce the non-thermal plasma which were produced by positive corona into the horticultural cold-storage, it can remove the volatile organic gases effectively, safely, and stably. However, the corona generates much ozone that may poison fruits and vegetables. A more effectual method to use the non-thermal plasma is coupling it with heterogeneous catalysis technology. To explore the mechanism and kinetics of ethylene degradation and ozone regulation in the photoelectric catalyzed coupling reaction system of direct current positive corona-elemental silver deposit nanometer TiO2. In this paper, the cylinder wall was used as corona discharge reactor, with needle-array-versus- inner-cylinder-wall corona electrode, and with nano-TiO2 as catalysis deposited with nanometer silver. The impacts of silver doping amount, discharge power and gas flow rate and other factors on ethylene degradation and ozone control effect were carried out in the simulation of the horticultural products cold storage environment, verified the intrinsic kinetics of the reaction process by surveying the changes of concentration of ethylene as well as ozone. The results showed that ethylene degradation dynamics model of positive corona discharge coupling activated carbon fiber (ACF) supported Ag doped nano-TiO2 (Ag-TiO2/ACF) was established. Corona discharge coupling Ag-TiO2*/ACF catalytic membrane on degradation of ethylene and control of the ozone concentration has a superior performance by comparing the reaction constant of Runge Kutta method for solving differential equations and least square method for dynamics model. By means of quadratic rotary combination experiment and regression fitting, quadratic multinomial model of reaction constant of corona discharge coupling Ag-TiO2*/ACF catalytic membrane on the degradation of ethylene and the limits of predicted values of ozone concentration was established. The validity of the model was verified, and parameters of reaction system were optimized at the same time. The optimal conditions for storage of apple was that silver doping amount of 0.5%, discharge power of 0.47 W and gas flow rate of 400 L/h. The research can provide a reference for the technology of direct current positive corona discharge coupling nano-TiO2 in the application of storage and transportation equipment of horticultural products.