Ice melting performance of deicers and their effect on stripping resistance of asphalt mixture

The ice melting performance of three types of deicers, including sodium chloride, calcium chloride and sodium acetate, were tested in laboratory under different temperature conditions, and their effects on asphalt mixture were evaluated from the point of the stripping resistance of asphalt mixture. Unsaturated Marshall samples were exposed to freeze-thaw cycling while immersed in the deicer solutions of different concentrations. After the freeze-thaw cycles, Cantabro tests were performed, and Cantabro loss was adopted to characterize the stripping resistance of asphalt mixture. The test results show that calcium chloride has the best comprehensive ice melting performance, and all deicers have detrimental effect on the stripping resistance of asphalt mixture at different degrees. The damage degree depends on deicer types and their concentration in the solution. Deicer solutions with about 2% concentration cause the greatest loss of stripping resistance due to serious freeze-thaw damage. Sodium acetate causes greater loss of stripping resistance than sodium chloride and calcium chloride at the same concentration.

INFLUENCE OF AIRCRAFT DEICER ON FREEZE-THAW DURABILITY OF HIGH PERFORMANCE CONCRETE

The influence of glycol,the main composition of the most frequently used aircraft dicer,on the freeze-thaw durability of high performance concrete（HPC）is investigated.Freeze-thaw durability of HPC is tested by accelerated freeze-thaw test.Four kinds of the solution,i.e.,tap water,3.5% NaCl solution,glycol solutions,and a LBR-A type commercial aircraft deicer are employed.Results show that freeze-thaw durability of HPC exposed to glycol solutions is closely related to the solution concentrations.The failure of HPC exposed to 3.5% glycol solution is similar to that of those exposed to 3.5% NaCl solution,i.e.,serious surface scaling.While the damage of HPC exposed to 12.5%—25% glycol solutions is postponed.Compared with glycol solution,the commercial aircraft deicer has much more negative effects on HPC freeze-thaw durability compared with 3.5% NaCl solution.In the presence of commercial aircraft deicer for HPC subjected to freeze-thaw cycles,the deterioration is mainly due to scaling and spalling.

Managing airport stormwater containing deicers： challenges and opportunities

Stormwater runoff at airports is a significant and costly issue, especially for the stormwater laden with deicing contaminants of high Biochemical Oxygen Demand （BOD） and aquatic toxicity. To reduce the loading of deicing constituents in stormwater and to manage the increasing pressure of tightening regulations, identifying fate and transport and evaluating environmental risks of deicing stormwater are of critical importance. In this review, the regulatory development of airport deicing stormwater management was first discussed, along with the milestone Airport Cooperative Research Program （ACRP） Report 14 publication. The deicer usage and fugitive losses can be reduced and the amount of deicer collected can be increased by having a better understanding of the fate and transport of deicing constituents in stormwater. As such, an overview and evaluation of the constituents of concern in deicers were provided to support the assessment of environmental impacts and mitigation recommendations. The state of knowledge of airport deicing stormwater management was then reviewed, which needs to be synthesized into a national guidance document. A guidebook and a decision tool for airports were proposed to adopt specific practical stormwater management strategies while balancing their priorities in environmental, economic, and social values against operational constraints. These challenges pose great opportunities to improve the current practices of airport deicing stormwater management.

Single and multiple stressor effect of road deicers and Cu on Atlantic salmon (Salmo salar) alevins from hatching till swim-up

Road salts are frequently used for deicing of roads in the Nordic countries. During snow-melt, the road run-off containing high concentrations of road salt and various metals such as Cu remobilized from sand, silt and dust may negatively influence organisms in downstream receiving water bodies. The present work focuses on the impact of road salt（NaCl） and Cu, separately and in mixtures on Atlantic salmon alevins from hatching till swim-up. The results showed that high road salt concentrations could induce a series of negative effects in alevins such as reduced growth, deformities, delayed swim-up and mortality. For alevins exposed to all tested road salt concentrations（100–1000 mg/L）,mortality was significantly higher compared to control. In exposure to Cu solutions（5–20 μg Cu/L）, no effects on growth, morphology, swim-up or mortality of alevins compared to control were observed. In mixture solutions（road salt and Cu）, ultrafiltration of the exposure water demonstrated that only 20%–40% of Cu was present as positively charged low molecular mass（LMM） Cu species assumed to be bioavailable. When exposed to road salt and Cu mixtures, negative effects in alevins such as reduced growth, deformities,delayed swim-up and mortality were observed. The overall results indicated that the road salt application could seriously affect sensitive life stages of Atlantic salmon, and application of road salt should be avoided during the late winter–early spring period.

双极型LCC-HVDC直流系统作为黑启动电源的启动方法及策略

科学合理的黑启动电源及方案是应对电网灾变停电的最有效策略,可加快其系统恢复进程,大幅减少停电损失。双极型换相换流器型高压直流系统(LCC-HVDC)具有调节灵活输电容量大的优势,但其作为黑启动电源存在一定的困难。提出了以双极型LCC-HVDC为黑启动电源的黑启动方法及完整过程,实现向受端无源网络恢复供电,以加速其恢复进程。首先给出了双极型LCC-HVDC作为黑启动电源时所面临的问题及相应的解决策略;进而给出了双极型LCC-HVDC作为黑启动电源恢复向受端无源网络恢复供电的实现过程。该过程包括2个阶段,第1阶段实现双极型LCC-HVDC的仿融冰模式启动;第2阶段为从仿融冰模式过渡到向受端无源网络恢复供电过程。算例证实了该启动方法的有效性和正确性。该方法使双极型LCC-HVDC具备了黑启动能力,并利用直流系统为受端电网的系统恢复过程提供了电压和频率支撑。

由木醋液制醋酸钙镁盐类环保型融雪剂研究

利用生物质（麦秸杆、木屑等）气化、干馏过程中的废液——木醋液与白云石粉为原料,通过转化、脱色、蒸发结晶等过程,制备出白色低成本的醋酸钙镁盐（CMA）类环保型融雪剂.同时用分光光度法研究了用活性炭进行吸附脱色的工艺条件,其最佳脱色条件为温度30～35℃,时间40～60 min,实际生产中吸附剂活性炭用量为每mL木醋液转化液0.07～0.1g.经系统研究,提出了如下工艺路线：将废液转化为醋酸钙镁盐—滤液用活性炭脱色—浓缩或结晶.实验表明,由木醋液制CMA类环保型融雪剂的方法,不仅可为道路除冰雪提供一种低成本的生产路线并根除氯害,同时可为这类生物质废液的治理提供一个变废为宝的新途径,对生物质资源的有效利用有重要意义.

基于直流融冰的电网大面积冰灾防御策略

目前,国内外电网均缺乏大规模应用直流融冰装置的实践经验,存在融冰工作效率低、融冰装置配置有待优化等问题,制约了直流融冰装置在抵御电网大面积冰灾方面作用的发挥。在总结南方电网直流融冰装置在2011年初冰灾中应用经验的基础上,分析了线路直流融冰优化调度方法,提出极端冰冻灾害情况下电网保底运行方案,提出了完善直流融冰装置配置的建议,构建基于直流融冰的电网大面积冰灾防御策略。

混凝土抗盐冻性能影响因素的研究

参照CDF抗冻性能试验方法研究混凝土的抗折强度、水灰比、掺合料及引气剂对道路混凝土抗盐冻性能的影响。结果表明:混凝土56次盐冻剥蚀量和相对动弹性模量损失率随抗折强度的增加而减小,随水灰比降低而减小;掺合料及引气剂有利于降低混凝土的盐冻剥蚀量和动弹性模量损失率,提高混凝土的抗盐冻性能。

500kV直流融冰兼动态无功补偿系统研发与工程试点

介绍了以金华500 kV双龙变电站为工程试点的500 kV直流融冰兼动态无功补偿系统,叙述了可控整流器型直流融冰兼动态无功补偿装置、融冰专用直流母线及移动式母线连接器的原理、结构、功能与特点。该系统采用多项专利技术,具有在直流融冰与无功补偿2种工作模式之间切换时不改变直流融冰兼动态无功补偿装置内部主电路和控制程序结构,只需通过外部隔离开关矩阵的简单切换操作,即可在对电网运行影响最小的前提下实现工作模式切换,以及融冰模式下同一线路不同相别或不同线路之间的平衡(循环)融冰切换操作等突出优点。

CMA类环保型融雪剂的应用研究进展

醋酸钙镁盐(CMA)可替代氯盐,用于机场、高速公路等道路除雪,根除氯害,是一种环保型融雪剂。介绍了国内外融雪剂的品质指标和应用研究进展,重点是利用生物质热解废液替代冰醋酸制备CMA类融雪剂的工艺方法,经济可行。与传统氯盐融雪剂相比,CMA环保型融雪剂腐蚀性低、毒性低、融雪效率高、冰共熔点低、可生物降解等。

大容量直流融冰兼静止无功补偿装置的研制与应用

研制了新型大容量直流融冰兼静止无功补偿器(SVC)装置。与小容量直流融冰装置相比,大容量直流融冰兼SVC装置具有以下特点:设备容量较大且具有SVC功能,一次结构上采用2台三绕组换流变压器,高压侧从高压电网直接受电,中压侧连接交流滤波器组,低压侧连接晶闸管阀组;通过14组三相电动隔离开关的位置变换和控制保护系统的功能切换,实现了融冰和SVC运行模式之间的自动切换,可尽量避免人工参与;由于设备应用场合重要性更高且需要长期运行,控制保护系统采用了双系统冗余配置,提高了设备的可靠性。现场应用表明,大容量直流融冰兼SVC装置在融冰模式运行时可有效解决大线径、长距离超高压线路的覆冰问题;在SVC模式运行时可有效提高电网电压的支撑能力。

南方电网主网架直流融冰工作流程与融冰效率研究

自2008年冰灾后,南方电网在西电东送主网架输电通道中加装了6套直流融冰装置,其中高肇直流高坡站直流融冰装置为南方电网首套高压直流输电线OPGW融冰装置。现有的研究工作大多只涉及线路两侧未安装融冰短接刀闸情况下相线融冰技术的研究与计算,实际上,地线覆冰是仅次于相线覆冰的影响系统冰期安全运行的因素,融冰短接刀闸的装设能够大大提高融冰效率。在此背景下,笔者介绍了6套直流融冰装置特别是高坡站OPGW直流融冰装置的概况,分析了基于覆冰预警系统的直流融冰工作流程及安装融冰短接刀闸前后的融冰效率。最后,对分析结果进行了总结,指出OPGW融冰具有可行性和必要性,并建议制定工作流程、加装融冰刀闸以提高融冰效率。

混凝土抗冻性试验方法及评价参数的研究评述

本文主要阐述了混凝土冻融破坏的机理,国内外混凝土抗冻性试验方法,评价参数及影响混凝土的抗冻性试验方法的因素。分析结果表明在除冰盐存在的情况下大大加剧了混凝土的冻融破坏。影响这些试验方法的因素为:试件与传热介质的接触方式;传热介质的种类和浓度;冻融循环制度。通过试件单位面积的剥蚀量和动弹性模量的损失更能准确、全面地反映混凝土的抗盐冻性能,并建议在我国应建立适合道路和桥梁的单面盐冻试验方法。

氯盐融雪剂对沥青混合料低温抗裂性的影响

采用低温弯曲试验研究了AC-13型沥青混合料在浓度为3%、10%和20%的氯盐融雪剂溶液中冻融后的的低温稳定性能,评价指标为抗弯拉强度、最大弯拉应变、弯曲劲度模量和弯曲应变能密度临界值,分别研究了冻融循环龄期和氯盐浓度对弯曲试验结果的影响。并采用XRD和SEM微观测试技术,分析沥青混合料的内部产物和形貌,探讨氯盐和冻融对沥青混合料的破坏机理。结果表明:冻融循环和氯盐融雪剂溶液浓度是影响沥青混合料低温抗裂性的重要因素。随冻融循环龄期的增长,沥青混合料弯曲劲度模量增大,应变能密度临界值减小,且融雪剂溶液浓度越大,对沥青混合料低温稳定性影响越小。

环保型融雪剂的制备及其性能评定实验研究

以醋酸废液和秸秆灰为原料制备低成本、环保型融雪剂,研究了融雪剂的pH值、融雪速率、冰点,初步评定了融雪剂的腐蚀性能、用量等。结果表明制备的融雪剂(EFD)pH值为6.4～6.8,融雪速率、冰点、对铁、混凝土、及农作物的腐蚀程度等均接近或优于常用的CMA环保型融雪剂,为低成本、环保型融雪剂(EFD)的工业化生产提供基础数据。

复合CMA环保型融雪剂的融冰能力研究

采用自制的工业化试验装置和工艺流程,以生物质(秸秆、木屑等)热解废液(木醋液)为原料,制备出以醋酸钙镁盐为主要成分的CMA类环保型融雪剂。研究了复合CMA环保型融雪剂的融冰能力及其不同组分配比对融冰能力的影响规律,结果表明:当液体融雪剂(20%)中醋酸镁和醋酸钙的体积比达到7∶3时融冰能力达到最大值91%,达到了国家标准(GB/T 23851-2009)中的规定值90%。当与一定比例的氯化镁复配后,可提高其融冰能力,液体融雪剂(20%)中氯化镁∶醋酸镁∶醋酸钙=7∶2∶1(体积比)时,融雪剂的融冰能力可达114%,是一种兼具低腐蚀性和高融冰能力的低成本的环保型融雪剂。

除冰盐对混凝土化学侵蚀机理研究

通过测定混凝土强度、膨胀和剥落量 ,应用XRD、DTA分析 ,研究了除冰盐 (NaCl或CaCl2 )对混凝土化学侵蚀的机理。结果表明 :(1 )NaCl溶液和低浓度 (≤ 1 2 % )CaCl2 溶液对混凝土的化学侵蚀均较小 ,而高浓度 (2 0 % )CaCl2 溶液在温度较低 (1 0℃ )时引起混凝土严重破坏 ,随着环境温度的提高破坏明显减弱 ;(2 )粉煤灰能明显提高混凝土抗氯盐化学侵蚀能力 ;(3)复盐CaCl·Ca(OH) 2 ·H2 O的形成是高浓度 (2 0 % )CaCl2

直流融冰装置与同杆并架线路间的相互影响

直流融冰装置对解决输电线路的覆冰问题起到了巨大作用。使用直流融冰装置对同杆并架双回线中的一回线进行融冰时,由于线路之间电磁耦合和静电耦合的作用,另一回交流线路(以下称为并架线路)会对融冰装置的运行产生影响。文中通过实时数字仿真器(RTDS)与实际融冰装置的控制保护设备组成的闭环系统进行了仿真研究,结果表明:融冰装置不会影响并架线路的运行;并架线路会对融冰装置的50Hz保护产生影响,应改进50Hz保护的逻辑或适当提高动作整定值;断开并架线路的交流断路器会对融冰装置的接地电流产生冲击,应适当提高接地电流保护的动作整定值;对同杆双回线路进行融冰时,应注意选择融冰方式。

复合CMA环保型融雪剂对碳钢的腐蚀率研究

研究了不同组分复合CMA融雪剂对碳钢的腐蚀率和融冰能力,研究了亚硝酸钠对腐蚀率的影响,结果表明,亚硝酸盐的加入对碳钢的腐蚀有良好的抑制作用,腐蚀率随亚硝酸钠加入量的增加而降低,复合融雪剂中加入5%的亚硝酸钠,将大幅度降低其腐蚀率(X=0.09),复合组分为MgCl2∶MgAC2∶CaAC2∶NaNO2=66.5∶19∶9.5∶5(质量比)的复合CMA融雪剂,是兼具高融冰能力和低碳钢腐蚀率的环保型融雪剂,依据国家标准(GB/T 23851-2009)道路除冰融雪剂,经检测产品质量高于国家标准。

可控整流器型直流融冰兼SVC装置在SVC模式下控制域解析

运行在SVC模式下的可控整流器型直流融冰兼SVC装置,其整流阀触发角的调节范围(控制域)通常在90°附近的较小区间内,但缺乏明确的分析。结合装置运行时的基本约束条件,从考虑换相角的前提下各量与触发角间的关系出发,分析了其在无功补偿运行模式下的控制域和无功补偿量解析表达式,并对分析结果的正确性进行仿真验证。研究结果对可控整流器型直流融冰兼SVC装置参数分析及控制参数优化设计具有参考价值。