不同海拔下甲醇替代率和主喷正时对RCCI发动机性能的影响

为探究不同海拔条件下甲醇/柴油反应活性控制压燃（reactivity controlled compression ignition, RCCI）发动机的运行特性,该研究基于甲醇/柴油双燃料发动机试验台架,试验研究1 800r/min、100%负荷和3 200r/min、100%负荷下不同甲醇替代率、柴油喷射正时对发动机燃烧与排放性能的影响规律。结果表明：不同海拔条件下随着甲醇替代率的增加,缸压和瞬时放热率峰值逐渐升高,燃烧始点和燃烧中心前移,当量有效燃油消耗率（equivalent brake specific fuel consumption, ESFC）降低,有效热效率升高,NO_x和碳烟排放大幅降低,THC（total hydrocarbons）和CO排放增加。1 800 r/min、100%负荷工况下,甲醇替代率由0增至20%,0、1 000、2 000m海拔下最大缸压平均增加1.72MPa,瞬时放热率峰值平均升高25.08J/(°),ESFC平均降低4.67%,有效热效率平均升高4.90%,NO_x和碳烟排放分别平均降低16.63%和50%,THC和CO排放量分别平均增加142.03、388.18 mg/kg。3 200 r/min下甲醇替代率由0增至7%,不同海拔高度下ESFC平均降低1.76%,有效热效率平均升高1.79%,NO_x和碳烟排放量分别平均降低8.17%和20.70%。海拔高度由0升至2 000m,1 800r/min、20%甲醇替代率与3 200r/min、7%甲醇替代率下,瞬时放热率峰值分别降低4.80和8.08J/(°),燃烧中心分别推迟1.44°和1.43°,有效热效率分别降低0.82%和0.68%,ESFC分别升高2.10%和1.99%,NO_x排放量分别减少10.61%和7.35%,碳烟排放分别增加26.54%和32.12%,THC排放分别升高29.88%和15.45%,CO排放量分别增加22.42%和18.15%。固定甲醇替代率后,随着柴油主喷正时提前,不同海拔条件下缸压和放热率峰值逐渐升高,燃烧中心向上止点靠近,ESFC逐渐降低,有效热效率升高,碳烟排放减少,NO_x、THC和CO排放增加。1 800 r/min、15%甲醇替代率下,主喷正时从-1.5°提前至-7.5°,不同海拔高度下ESFC平均降低8.27%,有效热效率平均升高9.08%,碳烟排放平均减少90.94%。为提升高海拔条件下甲醇/柴油RCCI发动机的热效率和燃油经济性,可以适当增大柴油主喷正时。研究结果可为不同海拔环境下甲醇/柴油RCCI发动机燃烧与污染物排放控制优化提供参考。     

可控变杆长空间机构在农机部件工作轨迹上的设计与应用

根据实际需要给定的空间轨迹,设计某种空间连杆机构,使得该空间机构连杆上定点的运动轨迹逼近所给定的空间轨迹。该文采用了可控变杆长空间连杆机构来实现已知运动轨迹,该运动轨迹可应用到机械手拔秧插秧、果实采摘、枝苗嫁接等农业机械设计中,为实现空间复杂运动轨迹设计提供了理论研究基础,该方法可应用于机器人、机械手的轨迹规划。     

聚脲防渗材料在大海子水库放水涵洞工程中的应用

针对大海子水库放水涵洞闸门前承压段3道伸缩缝止水功能部分失效、伸缩缝漏水防渗处理等问题,采取聚合物砂浆封缝、灌注水溶性聚氨酯堵漏、手工聚脲材料护面防渗等处理,为聚脲防渗材料在水库放水涵洞工程中的应用提供借鉴和经验.     

甘肃河西盐碱荒地开发对河流水质的影响

本文详尽分析了甘肃河西地区张掖临泽部分盐碱荒地开发对生态环境产生的主要污染参数、污染因子及污染物排放量，预测了洗盐废水中可溶性盐分对黑河水质的影响。     

缓控释肥研究现状及其在水稻上的应用

缓控释肥是一种能够减缓或控制养分释放的新型肥料,具有提高肥料利用率和作物产量、减少环境污染等优点。本文介绍了缓控释肥料的概念、类型,综述了缓控释肥料的国内外研究进展,分析了缓控释肥料在水稻上的应用及存在的问题,并进行了展望。     

山羊肺淋巴系的研究

24例山羊肺经肺实质和肺胸膜下注射30％普鲁士蓝氯仿溶液，剖查其器官内淋巴管及淋巴流向。结果表明，山羊肺的器官内淋巴管有浅淋巴管和深淋巴管2种。左肺尖叶淋巴管注入左支气管肺淋巴结和气管支气管左淋巴结，左肺心叶淋巴管注入左支气管肺淋巴结、气管支气管左淋巴结和气管支气管中淋巴结，左肺膈叶淋巴管注入气管支气管左淋巴结、气管支气管中淋巴结和纵隔后淋巴结；右肺尖叶淋巴管注入右支气管肺淋巴结和气管支气管前淋巴结，右肺心叶淋巴管注入右支气管肺淋巴结和气管支气管右淋巴结，右肺膈叶淋巴管注入气管支气管右淋巴结、气管支气管中淋巴结和纵隔后淋巴结，右肺副叶淋巴管注入右支气管肺淋巴结、气管支气管中淋巴结和纵隔后淋巴结。     

黄土高塬沟壑区道路排水沟侵蚀产沙试验

为给黄土高塬沟壑区道路排水沟水土流失测算及其防护提供科学依据,采用野外原位放水冲刷试验方法,在放水流量10~50 L·min^-1和坡度4°~10°条件下,对土质道路裸露排水沟和植被排水沟的侵蚀产沙规律进行试验研究。结果表明:放水流量和坡度增大,裸露和植被排水沟的径流含沙量和土壤剥蚀率均成倍数增大,与放水流量呈显著指数函数关系;同一试验条件下,裸露排水沟的径流含沙量和土壤剥蚀率分别是植被排水沟的1.3~1.7倍和1.4~2.2倍。放水流量和坡度对裸露排水沟径流含沙量的影响较为接近,而植被排水沟径流含沙量主要受放水流量影响;不论裸露还是植被排水沟,放水流量对土壤剥蚀率的影响都远大于坡度。     

草坪灌溉与排水课程设计的关键环节分析

为了提高草业科学本科生创造性和独立性,要求学生完成喷灌系统课程设计。该课程设计特点是公式多、难记忆、抽象和难掌握。在课程设计过程中,学生经常找不到切入点,不知道各环节计算公式和各环节之间的联系。通过对多年教学过程的总结和概括,分析设计灌水定额和灌水周期、喷头布置和选型、轮灌组划分等关键环节,进一步阐明各关键环节之间的联系,以期指导学生更好掌握草坪灌溉与排水课程,达到满足草坪草用水、节约用水、形成水动景观效果、解决我国水资源紧张等目的。     

Managing the water balance of The Fayoum Depression,Egypt

A study of the water balances of The Fayoum irrigated lands and Lake Qarun was made to investigate the management of the irrigation system and the efficiency of irrigation water use. The two water balances are strongly interrelated. The drainage flow to Lake Qarun and the water level of the Lake are in delicate balance. A rise in Lake level causes the inundation of adjacent land. Management of The Fayoum water balance assumes control over irrigation water flows, but this control has technical and organizational limitations. Also discussed is the influence of irrigation practices in The Fayoum on the water balance (e.g., the autumn flushing of fields and farmers' preference for not irrigating at night in winter). Notwithstanding a high overall efficiency, irrigation efficiency during the winter is low. The reasons for this are given, together with the constraints against improving system management. Improved uniformity of the division and application of irrigation water will enable a better technical control of flows and will result in better water management in The Fayoum. Abbreviations: FID — Fayoum Irrigation Department, 1 feddan (fe) — 0.4 ha, 1 mcm — 1 million cubic metres: an average annual flow of 3.17 m³/s gives 100 mcm, m³/fe.year — supplied volume (m³) per surface area (fe) per year: 1000 m³/fe.year equals 240 mm/year, MSL — Mean Sea Level     

Irrigated land retirement

Land retirement is ceasing irrigation withthe goal of reducing load, in general, ofdissolved constituents and, in particular,of trace elements, present in subsurfacedrainage generated from irrigated lands. Retirement is achieved through a process ofgoal setting, strategy development anddetermining effects, developing landselection criteria, implementation, andmonitoring. In this study, effects of landretirement are evaluated using hydrologic,soil and economic models as well as resultsfrom a field demonstration study. From themodeling and field monitoring, a process isdeveloped to meet the goals of a landretirement program in the San JoaquinValley of California.Potential negative effects listed for landretirement included loss of agriculturalproductivity, perhaps permanently, and lossof revenue to surrounding communities. Uncertainties included those associatedwith reuse of retired lands as wildlifehabitat, with retired-land maintenanceincluding dust control, with potentialpreservation of retired lands in reservefor future re-introduction to irrigated ordry-land agriculture, and withinstitutional changes concerning repaymentof federal and state water contracts. Benefits would accrue from economic returnto the landowner from the sale of property,the sale or lease of irrigation watersupply, the reduced cost of handlingdrainage, and allocation of freed-up waterto beneficial uses, and the reduced risk ofselenium exposure to fish and wildlife.A recommended sequential approach to selectand manage retired land is to identifyprimary objectives; formulate and implementarea-specific land retirement scenarios;measure biologic, hydrologic, soils andeconomic consequences in the short term andthe long term and manage and monitorretired lands based on dynamic biologic,hydrologic and soil conditions.