柴油车烟度计维修二例

环境监测仪器由于受环境条件等因素的影响 ,经常会出现各种故障 ,文章对柴油车烟度计检测时表头指针无指示故障进行了系统分析 ,并介绍了维修方法和步骤     

柴油机排放颗粒物组成分析

采用过滤分离、超声洗脱和气质联用等技术,实验测定了柴油机尾气中碳烟颗粒物的质量含量、可溶性有机组分在颗粒物中的质量分数和可溶性有机组分的化学组成。在实验条件下,柴油机尾气中碳烟颗粒物的质量含量为32·6~143·6mg/m3。可溶性有机组分在颗粒物中的质量分数为18·5%~89·4%。可溶性有机组分中检测出有机物100多种,已确定化学结构的有机物73种,其中直链和支链烷烃含量占81·22%,芳烃类化合物17·94%。     

涡轴发动机燃气涡轮叶片热腐蚀机理分析与改进

目的 提高航空发动机燃气涡轮工作叶片的结构完整性、安全性和可靠性。方法 以某型涡轴发动机燃气涡轮转子叶片热腐蚀案例为研究对象,详细阐述热腐蚀下燃气涡轮转子叶片的结构破坏形式,分析发生热腐蚀部位的分布规律。通过冶金分析方法,研究燃气涡轮转子叶片的热腐蚀-疲劳失效形式。结果 燃气涡轮叶片高摩擦系数的区域在高温燃气的冲刷效应以及热盐腐蚀的作用下,发生表面涂层腐蚀剥落。涂层腐蚀剥落部分的叶片合金基体受到高温燃气的氧化与侵蚀后,形成了热腐蚀坑。腐蚀坑表面的凹凸处出现应力集中,并萌生裂纹,最终引起叶片疲劳断裂。结论 探究了典型腐蚀性物质对燃气涡轮转子叶片的耐高温涂层与镍基合金基体侵蚀与氧化的化学本质,最后针对燃气涡轮转子叶片热腐蚀问题提出了改进建议,可对防范航空涡轴发动机热腐蚀问题提供有益参考。     

发动机典型寿命敏感件环境谱加速技术研究现状

对发动机寿命敏感件环境谱加速技术的研究现状进行分析。从加速环境谱的编制原则、编制方法以及当量关系的确定和验证等方面,详细介绍了加速环境谱的概念内涵。发动机的使用寿命主要受金属敏感件的腐蚀和非金属敏感件的老化制约,重点从常规加速腐蚀试验、多因素综合腐蚀试验和高温加速腐蚀试验等3个方面阐述了加速腐蚀试验方法。从液体介质老化、热氧老化、综合环境老化等方面介绍了以橡胶为代表的非金属加速老化试验方法。最后指出目前当量关系确定方法的局限性和多因素综合模拟方法研究方面的欠缺,提出应综合材料、腐蚀、力学、环境等多学科的相关理论和实践,制定更加科学合理的当量关系确定方法,以及注重新型试验设备的研发等建议。     

协同引擎、外部环境与流域生态补偿多主体协同行为研究——以山东省大汶河流域为例

联合多方利益相关主体实施协同行为,提升多元异质性主体之间的协同性,对优化流域生态补偿机制效能至关重要。本文基于山东省大汶河流域的979份实地调研数据,运用层次回归与有调节的中介效应检验方法,实证剖析协同引擎、外部环境对流域生态补偿多主体协同行为的驱动机理。研究表明：①协同引擎对流域生态补偿多主体协同行为具有显著正向驱动作用;②协同意愿在协同引擎与协同行为之间起中介作用,协同引擎可通过强化协同意愿间接驱动协同行为;③外部环境正向调节协同意愿向协同行为的转化,政府规制与社会规范的调节作用均通过显著性检验;④有调节的中介效应检验结果显示,高水平的政府规制及社会规范影响下,协同意愿在协同引擎与协同行为之间的中介作用得到增强,但在低水平的政府规制与社会规范影响下,协同意愿的中介作用并不显著。     

Isolation and identification of potential fungal species for spent engine lubrication oil remediation in Peninsular Malaysia

Improper disposal and spills of spent engine oil into the environment can result in contamination, which eventually affects humans through the food chain. Mycoremediation is an effective and inexpensive alternative to clean up spent engine oil contamination. In recent work, the potential effectiveness of fungi for degrading spent engine oil was confirmed, with the species identified through molecular identification. Fungi that were able to grow in Bushnell Haas Broth supplied with spent engine oil were identified with the potential to utilize spent engine oil as a carbon source. Six species of fungi namely Penicillium simplicissimum, Aspergillus nidulans, Aspergillus niger, Trichoderma longibrachiatum, Aspergillus ustus, and Aspergillus flavus were successfully identified in this study. Over a course of seven days, P. simplicissimum (21.11 percent) was identified as the most effective fungi in degrading spent engine oil, followed by A. nidulans (17.75 percent), A. niger (15.85 percent), T. longibrachiatum (15.12 percent), A. ustus (15.02 percent), and A. flavus (11.80 percent). As these species of fungi were isolated from the natural environment in Peninsular Malaysia, the potential of using these fungi as mycoremediation of spent engine oil was therefore confirmed.     

Accelerated ash accumulation method for diesel particulate filter and its characterization: a review

ABSTRACT

It is well known that high-efficiency wall-flow particulate filter is the most commonly used technology that can effectively reduce both particulate matter (PM) and particulate number (PN) to comply with the latest emission legislations. Ash, defined as the noncombustible, non-evaporative residue derived mostly from lubricants, has critical impact on engine backpressure, particulate filter filtration efficiency and durability performance, therefore, the investigation of ash impact on particulate filter is of great importance. Due to cost-saving potential, several published methods from different laboratories for accelerated ash loading under carefully controlled conditions are described in this review, including some characterization methods that have been used for the evaluation of filter performance. In addition, the impact of ash deposit on back pressure and regeneration performance are also discussed in this review.     

La1-x Cex Cuy Mn1-yO3／HZSM-5催化剂低温去除柴油机碳烟和NOx

为实现对柴油机碳烟和NOx的低温同步去除,采用柠檬酸络合法制备分子筛负载钙钛矿型金属复合氧化物催化剂,应用x衍射分析仪（XRD）和电镜扫描仪（SEM）对催化剂性能进行表征,并在微型固定床反应器中对催化剂低温去除碳烟和NOx进行活性评价。利用程序升温反应（TPR）技术,进行催化剂活性评价、柴油机负荷和排放等特性实验。结果表明,A位用适量Ce部分取代La,B位用适量cu部分取代Mn,可使碳颗粒燃烧温度降低,CO2选择性好,NOx转化率升高。La0.4 Ce0.6 Cu0.2 Mn0.8O3／HZSM-5催化剂的最大NOx转化率为81．0％,Ti、Tm和Tf分别为250、350和475℃,表明该催化剂具有较好的催化活性,能在低温条件下去除碳烟和NOx。     

Analysis of methanol and organometallic MnO2 fuels as alternative fuels in a diesel engine

In this study, methanol and organometallic MnO₂ fuels were used to improve the properties of diesel fuel. In addition, the effect of methanol fuel on engine oil and a piston ring was also examined experimentally in a four-cylinder, direct injection diesel engine running at 200 bar. Three different diesel fuels were prepared by adding 5, 10 and 15% methanol to diesel fuel. In order to prevent phase separation, 1% dodecanol was added to the mixture. Organometallic compounds of manganese were synthesised to prepare the solutions. The most effective amount and performance of anti-freeze were determined. From the results, it was observed that carbon monoxide emissions decreased and NOx emissions increased with the increase in the amount of methanol. On the other hand, organometallic MnO₂ increased the cetane number and decreased the freezing point, viscosity and flame temperature.     

柴油发电机房噪声治理的优化设计及应用

目前柴油发电机房噪声的设计与治理方法没有形成固定的模式,为了解决这个问题,文章以某柴油发电机房噪声治理为例,对该噪声控制进行理论探讨、设计计算和技术优化。以此为据完成了工程,取得了良好的处理效果。并为柴油发电机房噪声控制提供了一种可供参考的方法。