基于Boltzmann方程对C_(3)F_(8)/CF_(3)I/CO_(2)三元环保型混合气体的绝缘性能研究

为研究一种新型SF_(6)替代环保绝缘气体介质,采用密度泛函理论(DFT)从微观结构层面上深入地分析C_(3)F_(8)作为一种SF_(6)替代环保绝缘气体的可行性,利用两项近似的Boltzmann方程对300 K下C_(3)F_(8)/CF_(3)I/CO_(2)三元环保混合绝缘气体介质的绝缘特性进行了分析,计算三元环保混合气体的电子能量分布函数、电子群参数和协同效应系数等多种微观参数,分析了这些参数随C_(3)F_(8)混合气体比例的变化情况,并与同比例下的c-C_(4)F_(8)/CF_(3)I/CO_(2)三元混合气体的微观参数进行了对比和分析。在约化电场强度E/N低于418 Td时,从扩散系数、电子漂移速度的角度上来看,C_(3)F_(8)三元混合气体的性能优于c-C_(4)F_(8)三元混合气体,在C_(3)F_(8)比例低于7%时,C_(3)F_(8)三元混合气体的绝缘强度高于30%SF_(6)/70%CO_(2)的混合气体,此时的三元混合气体在中低压设备中具有一定的应用潜力。此外,当C_(3)F_(8)气体体积分数为10%时,三元混合气体协同性最好。文中的研究从理论上验证了C_(3)F_(8)/CF_(3)I/CO_(2)替代SF_(6)的可能性。

基于Boltzmann方程的CF_3I混合气体协同效应分析

CF_3I是一种极具潜力的SF_6替代气体,为了研究CF_3I在不同缓冲气体中的绝缘特性和协同效应,通过求解两项近似Boltzmann方程,对不同混合比例CF_3I/N_2和CF_3I/CO_2混合气体的协同效应系数进行了计算分析,并与试验结果进行对比。计算结果表明,300 K时CF_3I的绝缘强度是SF_6气体的1.2倍,CF_3I/N_2和CF_3I/CO_2混合气体都出现了协同效应现象,CF_3I/CO_2混合气体的协同效应系数显著高于CF_3I/N_2混合气体,但CF_3I/N_2混合气体的绝缘强度高于相同条件下的CF_3I/CO_2混合气体。当CF_3I含量超过20%时,CF_3I/N_2及CF_3I/CO_2混合气体的绝缘强度随CF_3I含量变化基本呈线性变化。试验结果显示,CF_3I/N_2混合气体的击穿电压同样高于CF_3I/CO_2混合气体,但两种混合气体的协同效应系数基本相同。

不同类型耳机对人听力的影响

为探究头戴式、入耳式和平头式三种不同类型耳机对人听力的影响,对100例（200耳）正常青年人分别进行听阈测试（0.125~8.0k Hz,对照组）,随后对其使用三种耳机分别进行相同的白噪声干扰并测试听阈（测试组）,并对其结果进行统计分析。结果表明：就频率而言,4000Hz频率听阈受影响最明显（P〈0.01）;就耳机类型而言,使用入耳式耳机后的听阈值高于对照组最多（P〈0.01）,其次是头戴式耳机和平头式耳机。

Investigation of the performance of CF3I/c-C4F8/N2 and CF3I/c-C4F8/CO2 gas mixtures from electron transport parameters

CF3I gas mixtures have attracted considerable attention as potential environmentally-friendly alternatives to SF6 gas,owing to their excellent insulating performance.This paper attempts to study the CF3I ternary gas mixtures with c-C4F8 and buffer gases N2 and CO2 by considering dielectric strength from electron transport parameters based on the Boltzmann method and synergistic effect analysis,compared with SF6 gas mixtures.The results confirm that the critical electric field strength of CF3I/c-C4F8/70%CO2 is greater than that of 30%SF6/70%CO2 when the CF3I content is greater than 17%.Moreover,a higher content of c-C4F8 decreases the sensitivity of gas mixtures to an electric field,and this phenomenon is more obvious in CF3I/c-C4F8/CO2 gas mixtures.The synergistic effects for CF3I/c-C4F8/70%N2 were most obvious when the c-C4F8 content was approximately 20%,and for CF3I/c-C4F8/70%CO2 when the c-C4F8 content was approximately 10%.On the basis of this research,CF3I/c-C4F8/70%N2 shows better insulation performance when the c-C4F8 content is in the15%–20%range.For CF3I/c-C4F8/70%CO2,when the c-C4F8 content is in the 10%–15%range,the gas mixtures have excellent performance.Hence,these gas systems might be used as alternative gas mixtures to SF6 in high-voltage equipment.