船用推进主机的噪声控制

随着推进主机朝着大型、高速的方向发展 ,其振动和噪声污染问题日趋严重。在此以某船用主机为例 ,通过采取隔振、安装消声器、使用隔声罩、机舱内粘贴吸声材料等综合治理技术对其进行了噪声控制 ,使机舱内的噪声能降低36dB(A)以上、甲板上的噪声能降低 14dB(A)以上 ,取得了很好的噪声控制效果。     

关于无烟柴油机的探讨

从技术上探讨了如何最大程序地降低排放物的污染,从而实施“无烟”的柴油机;定量地分析了柴油机各类排放物及其控制技术的效果。只要最优化组合并进一步改进这些技术,无烟柴油机的目标就可以实现。这也将是今后船用柴油机研制和生产的方向。     

Role of nano-additive blended biodiesel on emission characteristics of the research diesel engine

The current experimental study is aimed to analyze the influence of single-walled Carbon Nano Tubes (CNT) on the emission characteristics of neem biodiesel-fueled (NBD-fueled) diesel engine and the results compared with conventional diesel. Experiments were conducted in a single-cylinder, 4-stroke, diesel engine with an eddy current dynamometer at a constant speed of 1500 rpm. Two samples of CNT are characterized and dispersed into 100% of the NBD in a mass fraction of 50 and 100 ppm using ultrasonicator, and the physicochemical properties were measured. Experimental results indicated that by adding CNT nanoparticles in NBD reduces its NO_x, HC, CO, and smoke emission by 9.2%, 6.7%, 5.9%, and 7.8%, respectively, at all load conditions.     

缸内直喷汽油机排放PM_(2.5)的理化特征及影响因素

通过发动机台架实验研究了发动机的转速、负荷对缸内直喷(GDI)汽油机排放PM_(2.5)的排放水平、化学组成及颗粒物数浓度等的影响.结果表明:GDI汽油机排放PM_(2.5),OC,EC的排放因子分别为(49.8±28.2),(21.6±6.9),(11.4±10.8)mg/kg.低转速时,PM_(2.5)排放量随着负荷的增加先减少后增加,中、高转速时随着负荷的增加逐渐增加.碳质气溶胶是GDI汽油机排放的PM_(2.5)的主要组成成分,有机物(OM)和元素碳(EC)分别占PM_(2.5)的45.6%~70.6%和7.9%~42.7%.PM_(2.5)数浓度呈核态(10nmDp30nm)和积聚态(30nmDp200nm)的双峰分布,数浓度排放量比进气道喷射(PFI)汽油机高2个数量级,不同转速下积聚态颗粒数浓度随着负荷的增加而增加.     

航空活塞发动机点火强度均衡性测试及防火研究

针对磁电机故障和点火电嘴故障会使发动机失去动力引起飞行事故,高压导线破损放电可能导致动力系统起火并引发飞机火灾等安全隐患,利用紫外探测技术和虚拟仪器技术设计了航空活塞发动机点火强度均衡性测试系统,利用该测试系统完成航空活塞发动机点火系统的安全隐患检测。以四缸活塞发动机正常点火、高压导线破损、点火电嘴积碳等三种点火系统作为测试对象,测试发动机在不同转速下各气缸点火电火花紫外辐射强度,用以表征点火能量强度。实测得到,在不同转速下点火电嘴积碳故障都会导致点火强度降低;高压导线破损漏电会同时导致点火能量损失与点火强度不均衡,并且与转速呈正相关。测试结果可为航空活塞发动机点火系统故障排除及发现可能存在的高压导线破损放电电气火灾隐患点提供技术依据。     

缸内直喷汽油机多环芳烃排放特性的试验研究

在一台缸内直喷(GDI)汽油机上,分别用玻璃纤维滤膜和“聚氨基甲酸乙酯泡沫(PUF)+XAD-2”对尾气中的颗粒相和气相多环芳烃(PAHs)进行了采集,并用色谱-质谱联用仪(GC-MS)对PAHs进行了定性定量分析,研究了点火时刻和废气再循环(EGR)对PAHs排放的影响.结果表明:在缸内直喷汽油机尾气中,气相PAHs浓度远高于颗粒相PAHs浓度,在气相PAHs中主要是2环和3环等小环PAHs,而在颗粒相PAHs中则主要是4环及以上的大环PAHs.随着点火时刻的提前,尾气中PAHs总浓度呈现先减小后增加再减小的变化趋势,气相和颗粒相PAHs浓度也呈现相似的变化趋势.随着EGR率的增大,气相PAHs所占比例先减小后增大,颗粒相PAHs所占比例则先增大后减小,总PAHs的排放在整体上呈现逐渐减小的变化趋势.加入EGR后,GDI汽油机尾气的毒性显著增大.     

风力机叶片防除冰技术研究现状

提出了风力机防除冰的关键部件是叶片,并介绍了风力机叶片覆冰的影响,叶片防冰的主动与被动型方法及其各自的优缺点。重点阐述了憎水涂料防冰法的研究现状,并总结了憎水性涂料防冰的三大主要效果。对目前风力机叶片防除冰技术的主流方法进行了综合评价,并指出了其日后的发展方向。     

固定式燃气内燃机排放特性与大气环境影响研究

燃气内燃机冷热电联供机组由于其特性在城市楼宇型建筑中得到一定的运用,虽然它发电效率高,在建筑规模较小时,其经济性能也优于燃气轮机发电机组,但是其NOx的排放水平较高,噪声较大,因此有必要对其排放特性及污染控制进行研究和探讨.以某城区燃气内燃机冷热电联供项目为例,采用AERMOD烟羽扩散模式首次模拟了该燃气内燃机NOx等污染物排放对周边建筑物不同楼层的影响.结果表明,对近距离高于排气筒高度一定范围内的楼层,NOx的排放影响较大.     

Experimental investigation on the performance and emission characteristics of a diesel engine by varying the injection pressure and injection timing using mixed biodiesel

Biodiesel is a promising fuel for compression ignition engines instead of diesel fuel. Due to the depletion of diesel fuel, an alternative fuel can be used in an engine. The experiments were conducted on a four-stroke, single cylinder CI engine. In this present investigation, an attempt has been made to study the influence of injection pressure (IP) and injection timing (IT) on the performance and emission characteristics of diesel engines by using mixed biodiesel (Thevetia peruviana, Jatropha, Pongamia, and Azadirachta indica). The injection pressure is varied from 200 to 230 bar and the injection timing is varied from 23 to 29° bTDC at an increment of 10 bar and 2° bTDC, respectively, and the results were compared with diesel. From this study, the results showed that the brake thermal efficiency (BTE) was increased by 2.4% with an increase in injection pressure and 1.5% with an increase in the injection timing for the maximum load, but lesser than diesel. Furthermore, a reduction of 5.08% of brake specific fuel consumption (BSFC) has been noticed for the rise in IP and IT with loads but higher than diesel. The reduction was 34.17%, 53.85%, and 29.7% and 29.17%, 53.85%, and 21.95% of hydrocarbons (HC), carbon monoxide (CO), and smoke emissions, respectively, at 230 bar injection pressure and at 27° bTDC injection timing. Also, a significant increase in nitrogen oxides (NO_x) and carbon dioxide (CO₂) emissions at the maximum load was observed by increasing the injection pressure and injection timing.     

Improving the dynamic response of frequency and power in a wind integrated power system by optimal design of compensated superconducting magnetic energy storage

The frequency deviation and power fluctuation need to be controlled in a wind-integrated power system (WIPS) for keeping the balance between system power generation and demand, which support the quality and stability of overall power system. The present paper addresses this problem while concerning the integration of intermittent wind power and load disturbance into the WIPS. With this intent, it proposes the compensated superconducting magnetic energy storage (CSMES) system with proportional integral derivative (PID) controller for improving the frequency and power deviation profile. A novel swarm intelligence-based artificial bee colony (ABC) algorithm is used for optimal design of PID-CSMES system. Robustness of the proposed ABC-based PID-CSMES control strategy is tested in WIPS under various disturbance patterns of load and wind power. To demonstrate the improved dynamic response, their simulation results are compared with particle swarm optimization-based PID-CSMES, PID with SMES, and only PID controller technique. The performance indices and transient response characteristics of frequency and power deviation are used to evaluate and compare the accuracy and efficiency of each controller. Stability of various system configurations is analyzed using eigenvalue location. Comparing the results of different controller in WIPS indicates a substantial improvement in the dynamic response of system frequency and power deviations by utilizing the proposed control strategy.