新能源公交车的推广应用

近年来，随着石油燃料的消耗增加，能源消耗以及环境问题逐渐得到了广泛的关注，新能源汽车（文章是指新能源公交车）的技术研发和产业化发展受到的重视程度越来越高。中国的经济发展越来越快，近几年汽车销售量增长迅速，石油消耗量大幅增加，导致二氧化碳等温室气体排放量大幅增加。文章主要从国家政策、车辆使用情况、配套充电设施建设等几个方面浅议新能源公交车在推广应用中面临的机遇和挑战。     

斑茅纤维降解生产燃料酒精的发酵工艺研究

以能源植物斑茅纤维为原料,探讨纤维素糖化液生产燃料酒精的发酵工艺研究,分析了时间、温度、pH、氮源种类、酵母膏用量与酵母用量等因素对斑茅纤维素酒精发酵的影响。结果表明:反应时间72~96h,温度35℃,pH4.8~5.2,酵母膏氮源用量0.8%~1.0%,酵母用量10%~15%时斑茅纤维糖化液的酒精发酵效果最好。通过正交试验确定了最佳发酵条件:时间84h、温度35℃、酵母膏用量1.2%、酵母用量20%,发酵验证酒精值达4.6%(V/V),酒精得率32.62%。     

旱地生态学问题弱解对初值的连续依赖性

随着工业化的发展,人们越来越注重生态环境保护问题.利用能量方法,采用Sobolev不等式研究了旱地生态学问题,得到了旱地生态学问题非负弱解对初值的连续依赖性.     

直剪法用于糙米内摩擦角的测定与研究

利用土工合成材料综合测定仪（直剪仪）,以水分含量14.57%的糙米为样品,测定了在不同的法向压应力、不同的剪切速率下糙米的剪切应力并计算出内摩擦角。实验结果表明：糙米的剪切应力随着法向压应力（25kPa～100kPa）的增大而增大;剪切速率（1.33mm/min～2.67mm/min）较低时糙米的内摩擦角随着法向压应力的增大而减小;随着剪切速率（1.33mm/min～5.20mm/min）的增大,糙米的内摩擦角减小。     

华北地区旅游型村镇住居模式探讨——以保定涞源白石山景区为例

村镇型旅游发展中,旅游者在当地村民家中留宿,村镇的个性化接待和朴素环境让人们赞不绝口,但由于其自发性和无组织性,现在存在设计不得当,经营模式不健全等弊端.研究以河北省涞源县白石山景区为例,分析其存在的问题,旨在为旅游型住居模式的设计与经营提供更为合理的方法与策略.     

不同通风工艺在浅圆仓中应用的研究

在对大豆进行冬季通风作业时,采用正压上行压入式、负压下行吸出式和先负压后正压三种作业方式分阶段进行通风,充分的利用自然冷源,达到降温目的,通过对比三种作业方式的降温效果、水分损耗、降温能耗、人工投入等,并根据粮情,找出最合适的通风方式。     

Utilization of Livestock''s Dejection as Biogas Origin in Building New Countryside in Heilongjiang Province--Developing Utilization of Biogas and Promoting Energy-saving and Emission Reduction

With the startup and execution of new socialistic countryside construction in Heilongjiang Province,the transition from castoff to resource is strengthened in the countryside,aiming at neat appearance of the countryside,clean production and saving energy.People produce biogas and provide the countryside with new energy by means of turning livestock's dejection into resources,composting of the plant and animal's leavings in the courtyard and even in the factory.It is helpful for the countryside to conserve t...     

Influence of salinity and moisture on the threshold shear velocity of saline sand in the Qarhan Desert,Qaidam Basin of China: A wind tunnel experiment

Determination of the threshold shear velocity is essential for predicting sand transport, dust release and desertification. In this study, a wind tunnel experiment was conducted to evaluate the influence of salinity and moisture on the threshold shear velocity of saline sand. Saline sand samples (mean particle size of 164.50-186.08 μm and the total silt, clay and salt content of 0.80%-8.25%) were collected from three saline sand dunes (one barchan dune and two linear dunes) in the Qarhan Desert, Qaidam Basin of China. Original saline sand samples were placed in two experimental trays for wet and dry processing to simulate deliquescence and desiccation, respectively. Surface moisture content ranging from 0.30% to 1.90% was generated by the steam method so that the saline sand can absorb water in a saturated water vapor environment. The motion of sand particles was determined by the observers with a solid laser. The laser sheet (0.80 cm thick), which was emitted by the solid laser, horizontally covered the sand surface and was bound to the sand. Results show that the cohesion of saline sand results from a combination of salt and water. The threshold shear velocity increases exponentially with the increase in crust thickness for the linear sand dunes. There is a positive linear correlation between the original moisture content and relative threshold shear velocity. The threshold shear velocity of dewatered sand is greater than that of wet sand with the same original moisture content. Our results will provide valuable information about the sand transport of highly saline soil in the desert.     

相变材料在绿色储粮中的应用探讨

相变材料能够储存或释放显热,在熔化或凝固过程中虽然温度不变但吸收的潜热却相当大。根据相变材料可以吸收环境热能并在需要时向环境发出热能的特征,研究相变材料在粮食仓储中的应用,减小外界环境对粮仓温度的影响,达到恒温绿色生态储粮的目的。