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111.
为探究气体惰化机理,提高惰化过程效率,对卧式椭球状LNG液舱的气体惰化过程进行数值模拟与优化。采用从椭球状液舱端部直流射流、旋转射流和混合射流的进气方式,分析气体射流流场结构和惰化效果,探究不同进气方式对惰化过程影响的机理,并提炼其惰化优化方案。结果表明:在进气流量一定时,旋转射流的惰化效果优于直流射流和混合射流,这是由于旋转射流会产生更大的进气扩张角,可大幅减少惰化死角的存在,有利于在储罐内部形成推移式惰化;旋转射流相对直流射流可节省40.4%氮气量和惰化时间,相对混合射流可节省26.2%氮气量和惰化时间。旋转射流优化方案可减少氮气耗量并节省惰化时间,提高惰化过程效率,具有较高的经济性,对于实际LNG液舱的气体惰化过程具有重要指导意义。 相似文献
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以燃气为工质的向心透平常用于微型燃气轮机系统中,有着重要的工程应用价值。本研究关注燃气向心透平的非定常流动特性,基于一台功率等级为1MW,转速为30000rpm的燃气向心透平,首先进行了热力设计,得到了其关键位置的燃气工质热力参数及透平的模型尺寸。其次基于三维粘性数值模拟计算的方法,采用SST k-ω湍流模型及六面体结构化网格在商用软件CFX中对燃气向心透平进行了定常与非定常气动计算,详细分析了其气动特性及非定常流动状况。最终,分析了这一燃气向心透平的非定常气流激振力在时域及频域分布,并准确评估了其流量、扭矩、功率及效率等关键参数。 相似文献
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Currently, the shipping industry is facing a great challenge of reducing emissions. Reducing ship speeds will reduce the emissions in the immediate future with no additional infrastructure. However, a detailed investigation is required to verify the claim that a 10% speed reduction would lead to 19% fuel savings (Faber et al., 2012).This paper investigates fuel savings due to speed reduction using detailed modeling of ship performance. Three container ships, two bulk carriers, and one tanker, representative of the shipping fleet, have been designed. Voyages have been simulated by modeling calm water resistance, wave resistance, propulsion efficiency, and engine limits. Six ships have been simulated in various weather conditions at different speeds. Potential fuel savings have been estimated for a range of speed reductions in realistic weather.It is concluded that the common assumption of cubic speed-power relation can cause a significant error in the estimation of bunker consumption. Simulations in different seasons have revealed that fuel savings due to speed reduction are highly weather dependent. Therefore, a simple way to include the effect of weather in shipping transport models has been proposed.Speed reduction can lead to an increase in the number of ships to fulfill the transport demand. Therefore, the emission reduction potential of speed reduction strategy, after accounting for the additional ships, has been studied. Surprisingly, when the speed is reduced by 30%, fuel savings vary from 2% to 45% depending on ship type, size and weather conditions. Fuel savings further reduce when the auxiliary engines are considered. 相似文献
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Fuel-switching personal transportation from gasoline to electricity offers many advantages, including lower noise, zero local air pollution, and petroleum-independence. But alleviations of greenhouse gas (GHG) emissions are more nuanced, due to many factors, including the car’s battery range. We use GPS-based trip data to determine use type-specific, GHG-optimized ranges. The dataset comprises 412 cars and 384,869 individual trips in Ann Arbor, Michigan, USA. We use previously developed algorithms to determine driver types, such as using the car to commute or not. Calibrating an existing life cycle GHG model to a forecast, low-carbon grid for Ann Arbor, we find that the optimum range varies not only with the drive train architecture (plugin-hybrid versus battery-only) and charging technology (fast versus slow) but also with the driver type. Across the 108 scenarios we investigated, the range that yields lowest GHG varies from 65 km (55+ year old drivers, ultrafast charging, plugin-hybrid) to 158 km (16–34 year old drivers, overnight charging, battery-only). The optimum GHG reduction that electric cars offer – here conservatively measured versus gasoline-only hybrid cars – is fairly stable, between 29% (16–34 year old drivers, overnight charging, battery-only) and 46% (commuters, ultrafast charging, plugin-hybrid). The electrification of total distances is between 66% and 86%. However, if cars do not have the optimum range, these metrics drop substantially. We conclude that matching the range to drivers’ typical trip distances, charging technology, and drivetrain is a crucial pre-requisite for electric vehicles to achieve their highest potential to reduce GHG emissions in personal transportation. 相似文献
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隧道基坑常位于地下管线数量较多的闹市区,为避免施工过程中对周边管线的破坏,如何准确分析基坑开挖对周边管线的影响至关重要。利用三维有限元软件MIDAS GTS对基坑周边不同管线进行计算,通过对计算数据的观察分析,归纳总结基坑开挖对不同管线所造成的位移变形特点,为隧道基坑周边管线的合理保护优化提供了重要依据。 相似文献
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The corporate average fuel economy (CAFE) standard is the major policy tool to improve the fleet average miles per gallon of automobile manufacturers in the US. The Alternative Motor Fuels Act (AMFA) provides special treatment in calculating the fuel economy of alternative-fuel vehicles to give manufacturers CAFE incentives to produce more alternative-fuel vehicles. AMFA has as its goals an increase in the production of alternative-fuel vehicles and a decrease in gasoline consumption and greenhouse gas emissions. This paper examines theoretically the effects of the program set up under AMFA. It finds that, under some conditions, this program may actually increase the production of fuel-inefficient gasoline vehicles, gasoline consumption and greenhouse gas emissions. 相似文献