一起110kV组合预式电缆中间接头故障分析及应对

通过对发生故障的110kV组合预式电缆中间接头进行解剖,分析认为造成故障的主要原因是环氧筒内嵌电极与环氧绝缘界面存在局部放电,在长期运行过程中形成贯穿性导电通道造成击穿,并提出了开展在线局部放电测试对绝缘的健康状态进行监测。

一起110kV可插拔组合预式电缆中间接头故障分析及应对

通过对发生故障的110kV可插拔组合预式电缆接头进行解剖,分析认为造成故障的主要原因是应力锥弹簧系统安装不当、环氧筒内表面与应力锥界面压力降低引起沿面放电造成,并提出了在线局部放电监测和加强现场施工的管控措施。

大跨度预弯组合梁式桥荷载试验研究

通过桥梁荷载试验研究大跨度预弯组合梁式桥这种新结构的技术状态,以对其投入运营后的受力性能作出估价,分析试验荷载下对预弯组合梁式桥的结构承载力、刚度和正常使用状态及动荷载下动力特性的检验及安全运行评估。

大跨度预弯组合梁式桥荷载试验研究

我国目前尚无预弯组合梁式桥的设计和施工规范。通过桥梁荷载试验研究大跨度预弯组合梁式桥这种新结构的技术状态,以对其投入运营后的受力性能作出估价。试验成果表明,工程实例所示预弯组合梁式桥的承载力、挠度、动力特征等满足设计荷载等级的要求,为今后对预弯组合梁式桥的进一步研究提供了试验数据。

装配式架空层临建的应用

紫元元大厦工程位于深圳市福田中心区,为独栋超高层建筑,可用于施工临建的场地异常狭小,为满足施工场地内工人及管理人员住宿及生活要求,采用钢结构装配式架空层临建。搭设装配式架空钢平台,在平台上搭设防火型轻质板房或放置2层集装箱房,平台下方空间也可搭设防火轻质板房,用于工人食堂及局部作为工人寝室使用。装配式架空平台采用钢柱、钢梁和组合式预铺板装配安装,平台板面采用组合式预铺板,预铺板采用花纹钢板和槽钢,架空平台全部使用M20螺栓连接,施工快捷,可周转多次使用。架空层钢平台采用定型化钢梯作为上下通道,钢梯与平台采用高强螺栓连接。楼面满铺预铺板,预铺板与主次梁采用高强螺栓连接。装配式架空层临建可按办公和生活区实际使用面积搭设,非常适合于现场临建可利用面积过小的施工项目。

降低褐煤锅炉排烟温度的方案研究

为解决褐煤锅炉的高排烟温度问题,通过机炉一体化系统设计,调整锅炉受热面设计方案,在省煤器上游设置预省煤器,并增设工质为某级高加上游低温高压给水的分流省煤器,根据相应的热平衡变化调整空气预热器设计即可获得较低的排烟温度。最后,以某印尼褐煤机组数据为边界条件进行了计算。结果表明:排烟温度从171℃降低至107.8℃时,锅炉效率升高3.96个百分点,但热耗率上升99.12 kJ/(kW·h),综合节煤是目前所有褐煤机组的共性问题,本文的解决方案对于类似项目都有很好的指导和借鉴意义。

Study on New Pretreatment Combining Dilute Acid Treatment and Organic Solvent Water / Ethanol for Biorefinery： Application to Switch Grass

Switch grass was developed as a pioneer energy crop in USA with great industrial prospect. It contains about 60% sugars and 18% lignin. The purpose of this research is to find pretreatment process to fractionate cellulose, hemicellulose and lignin from switch grass to obtain much more useful chemicals and enhance the residue solid to be hydrolyzed by enzymes. The six different pretreatment methods were studied, such as hot water pretreatment （HWP） alone, dilute acid pretreatment （DAP）, ammonia pretreatment （AP）, lime pretreatment （LP）, organosolv water / ehanol pretreatment （OWEP）, and organosolv water / acetone pretreatment （OWAP）. It was the best method combining DAP with OWEP because the hemicellulose sugars were recovered in the first residual liquid while a varied amount of cellulose was retained in the residual solid and the lignin fraction was obtained by simply adjusting the pH from the second liquid. The result shows the optimal two-stage process consisted of the first stage DAP at 428 K for 7 min with 0.8% sulfuric acid, resulting in 79.82% glucose recovery yield and 98.74% xylose removal and the second stage OWEP at 468K for 20 min in 45% （v / v） ethanol with 0.4% NaOH, resulting in 62% total glucose yield 99% xylose and 80% lignin removal. After enzymatic hydrolysis, the glucose yield was up to 92.6%, compared with 16% yield from untreated switch grass. Scanning electron microscopy （SEM） highlighted the differences in switch grass structure from the various pretreatment methods during biomass fractionation.