太阳岛地区临江建筑景观初探

作者立足哈尔滨太阳岛地区临江建筑景观设计 ,通过调查研究与创作实践 ,提出了对临江建筑设计的基本原则与理念     

阿坝州干旱河谷区自然植被及生长调查

2005年7月20日至10月15日,对阿坝州6个县干旱河谷地区的自然植被进行了调查。结果表明:干旱河谷区主要植物物种有26种,以小叶羊蹄甲分布范围最广,其次是野花椒、虎榛子、三颗针、白刺花。同一区域不同树种的生长状况差异显著,即使是相同树种,在不同地区的生长差异也很明显。综合各项生长指标,金川县虎榛子是干旱河谷区同类树种中生长状况最优的,其植株平均高度、平均冠幅占有相同树种不同地区的绝对优势。同样,茂县的小叶羊踢甲、黑水县的三颗针等也是干旱河谷区同类树种的最优树。     

内陆河水资源合理利用的优化分配方法

依据内陆河流域不同区域在水资源条件、气候条件、经济发展水平及水资源利用途径等方面的差异性，以及时序上水资源的利用规律，提出了旨在合理利用水资源，改善生态环境的水资源优化分配方法。通过在黑河流域的实例应用，论证了该方法的有效性。     

河网水流模拟编程计算研究

以扩展的圣维南方程组和有限差分方程组为基础，对河网进行合理的编码，采用Preissmann法对圣维南方程组进行离散，采用河网矩阵标识法的三级解法编制河网非恒定流的计算程序求解各断面的水位Z和流量Q。     

河道堤防设计高程的概率设计和风

介绍河道堤防设计高程的概率和风险校核方法。该方法综合考虑多种不确定性因素的影响，利用随机微分方程推求河道水位的概率分布，并对风浪的随机影响进行分析，按照随机可靠性理论，对常规采用确定性方法确定的河道堤防高程进行漫顶风险校核和可靠性设计。     

TMDL计划与小流域污染综合治理思路的研究-以南水北调东线山东段治污为例

为了不断完善小流域污染综合治理思路,进一步推进水污染治理工作,对TMDL计划进行了介绍,并在治理思路、总量分配方法及总量分配公平性、合理性等多个方面与小流域污染综合治理思路进行比较,找出差异,吸收其有益的思路和措施。通过比较得出:①小流域污染综合治理和TMDL计划在思路上是一致的,但在总量分配及分配的公平性、水质目标可达性的保证率等方面存在着一定差异;②TMDL计划中的诸多措施可为小流域污染综合治理所吸收借鉴,并以此为基础对完善小流域综合治理提出了诸多合理的建议。     

引黄济津应急调水工程河北段输水能力计算

针对引黄济津应急调水工程河北段的输水能力进行了研究。渠段的输水能力是指渠段所能通过的最大入流量，即渠段的首端断面所能通过的最大流量。根据引黄济津应急调水工程近4年的实测数据，构建了适于干河床水流推进过程渗漏损失的改进模型、小水深情况下的糙率加大模型，并采用均匀试验优选方法对水力参数进行了反演，利用非恒定流模型对引黄济津河北段渠系输水能力进行了计算。结果表明，建立的渗漏损失改进模型、小水深情况下的糙率加大模型是合理的，反演得到的参数是精确的；由于在水流推进与涨水阶段渠床的非稳定渗漏起了较大作用，所以各渠段的输水能力在非稳定输水阶段比稳定输水阶段稍大。输水能力的计算结果可以为引黄济津未来几年的输水规划与调度提供具体的指导。     

珠江三角洲地区生鲜农产品冷链网络化运输技术

文章主要是对我国的珠江三角洲地区的生鲜农产品冷链的物流方式进行探究,结合现在我国的生鲜农产品冷链运输技术的现状和发展前景进行大胆的预测,并提出我国的珠江三角洲地区的生鲜农产品冷链的运输技术的网络化的建议。     

Water allocation and management in an emerging spate irrigation system in Makanya catchment, Tanzania

Although spate irrigation systems are risk-prone, they can be an important component for livelihood security in semi-arid areas. Spate uses water (flood water), which upstream users often do not require, as rainfall during these periods is more than sufficient. The use of this flood water for spate irrigation is therefore a good opportunity to convert water with a low opportunity cost to high value water. As more rivers are closing, due to socio-economic and climate changes, spate irrigation may become increasingly relevant in semi-arid areas. Spate irrigation systems pose institutional and technical challenges: collective action is challenged by complex upstream-downstream interactions between users within the system, and the high labour demands for regular reconstruction of temporary diversion weirs and intake structures. This paper describes a spate irrigation system in Makanya village, Tanzania that emerged in response to increased upstream water use. We use three of the four dimensions (hydrological, hydraulic and sociological) of spate irrigation proposed by Van Steenbergen (1997) to assess the Makanya spate irrigation system. The Makanya spate irrigation system has an organisational structure that is similar to the canal irrigation (furrow) committees located upstream, and effectively deals with the institutional demands of managing water in spate irrigation systems. Water allocation is reminiscent to the water sharing arrangements existing in the full irrigation system, which previously was in place at the site and in the high- and midlands of the Makanya catchment and therefore set this system apart from the traditional spate irrigation practice elsewhere. Technically, a major challenge is the reconstruction of the head works after each flood. Another aspect is the changes in the river bed. Flash floods carry sediments that deposit on the fields, raising the elevation of the irrigated land every year and making it increasingly difficult for the river water to enter the plots. Improving system efficiency through modernisation of the diversion and distribution structures in this case is not feasible due to the huge amounts of sediments delivered to the system each year. Instead investments in conjunctive use of groundwater could be the solution because it involves a relatively small intervention, minimises the physical disturbance of the system, and therefore is likely to respect the existing locally developed water management arrangements.     

变化环境下的元谋干热河谷区水热响应分析

以变化环境影响下的脆弱区金沙江元谋干热河谷为研究对象,通过多种验证方法,研究气温、极端最高气温、极端最低气温、降水量、日降水量大于0.1 mm的日数和最大日降水量等水热指标对变化环境的响应规律.结果表明:从年际来看,自1956年以来,年均气温、极端最高气温均呈降低趋势,而极端最低气温则微弱升高,降水量、日降水量大于0.1 mm的日数和最大日降水量均为升高趋势;从年内来看,平均气温四季均为降低趋势,春季最显著,秋季最不明显,降水量四季均表现为增加趋势,其中春季最显著,冬季最不显著;从未来趋势来看,平均气温维持降低趋势的概率比升高的大,年降水量维持增加趋势的概率较转向降低趋势的概率要大,干热河谷有可能转为干暖或干温河谷.