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31.
对大型拖拉机设计中的人性化美学要素进行了分析和研究,以求用优秀的人性化美学设计出能够满足使用者的生理、心理和审美需求的产品,提升我国大型拖拉机的市场竞争力。 相似文献
32.
La3+,Ce3+对厌氧颗粒污泥在不同VFA底物中的产甲烷促进效应 总被引:4,自引:0,他引:4
采用静态实验研究了分别添加O.05mg·L^-1La^3+和Ce^3+对不同来源和保存状况条件下不同VFA底物的厌氧颗粒污泥产甲烷的影响。结果表明,乙酸为底物时加入Ce^3+,丙酸加入La^3+或Ce^3+,乳酸加入La^3+时都大大加快了反应初期污泥的产甲烷速率,且对比产甲烷活性SMA也有3%-8%的提高;O.05mg·L^-1La^3+或Ce^3+的加入使污泥利用丙酸的速度加快,对于厌氧反应器的恢复运行有一定的实际意义。甲酸为底物时,La^3+,Ce^3+的加入对污泥产甲烷曲线形状没有影响,对SMA则分别降低了9.21%和3.37%;乙酸添加La^3+在反应初期明显降低了产甲烷速率,但SMA并未降低。厌氧颗粒污泥经长时间低温存放后,原来对其SMA有提高作用的稀土浓度此时可能会作用不明显甚至会降低SMA;低浓度稀土离子对污泥产甲烷活性产生抑制作用时,相同质量浓度下Ce^3+比La^3+对污泥的抑制作用小;驯化培养过程有利于污泥对稀土的适应。 相似文献
33.
34.
应用有限元分析了汽车减振器橡胶支撑件的弹性特性,在此基础上,应用SIM PACK软件建立了整车多体动力学模型,分析了橡胶支撑件的刚度、阻尼对汽车行驶平顺性的影响。分析结果表明:在车身共振区,橡胶件对地板加速度功率谱影响较小,但在4-13Hz中频区,即人体比较敏感的范围内,橡胶件可以使地板加速度功率谱峰值减小6.5%-25.4%,因此悬架橡胶件对汽车行驶平顺性有明显的改善。此外,还得出对于刚度较大的橡胶件应选取较小阻尼,对于较软的橡胶件,可以忽略阻尼影响的结论。 相似文献
35.
中微量元素对番茄产量和品质影响的整合分析 总被引:3,自引:0,他引:3
基于已有文献数据讨论了施用中微量元素对番茄单果质量、产量和品质影响的程度,以期为科学施用中微量元素肥料提供依据。研究数据来源于中国知网、万方数据和Web of science,以不施用中微量元素为对照,选择反应比作为效应值,通过Meta分析方法综合分析施用中微量元素对番茄产量和品质的作用效果,并分亚组进行讨论分析。整合分析发现,施用中微量元素能够显著提高番茄果实单果质量和产量,提高比率分别为5.8%、10.2%;显著提高了果实中维生素C和番茄红素含量,提高比率分别为26.3%、69.4%;显著降低了果实中硝酸盐含量达6.7%。综上,施用中微量元素能够显著提高番茄果实单果质量、产量和维生素C含量、番茄红素含量等品质指标,叶面喷施效果优于土壤施用,微量元素效果优于中量元素,且中微量元素施用应以平衡施肥为前提。 相似文献
36.
湖北省国家珍稀濒危植物区系地理研究 总被引:7,自引:0,他引:7
经调查研究与统计,湖北省自然分布的国家珍稀濒危植物有58种。论述了该地区国家珍稀濒危植物的属和种的区系地理分布特点,并提出了开发利用珍稀濒危植物资源的建议。 相似文献
37.
《Communications in Soil Science and Plant Analysis》2012,43(22):2807-2820
Salinity is considered as a major abiotic stress affecting crop production in arid and semi-arid regions in the world. Surfactants can improve water-use efficiency in saline soils and improve crop yield. This study was conducted to evaluate the effect of salinity stress and surfactant treatments on photosynthetic pigments and nutrition elements of fenugreek in the Crop and Soil Science greenhouse at the Pennsylvania State University (University Park, PA, USA) in 2013. The experiment was conducted using a 5 × 3 factorial randomized complete block design with three replications. Factor A consisted of five salinity levels [0, 4, 6, 8, and 10 ds m–1 sodium chloride (NaCl)] while factor B consisted of three nonionic surfactant levels (0, 1, and 3 ppm). The results indicated a stepwise reduction in photosynthetic pigments of fenugreek as salt stress increased, however, Peroxidase and polyphenol oxidase activity increased in fenugreek leaves as salinity stress increased. Levels of surfactant application had different effects on nutrient uptake. Some nutrient elements such as sodium, phosphorus, copper, manganese, and zinc content increased while others decreased at high salinity conditions. Surfactant application rate of 3 ppm at moderate and high salinity levels and 1 ppm at lower salinity levels had a good performance in enhancing the total photosynthetic and carotenoid activities in fenugreek. 相似文献
38.
The influence of temperature, irradiance, and soil humidity on the nitrogen (N) concentration in some organs, chlorophyll in the leaves, N uptake and accumulation of dry matter in plants of winter wheat was investigated. In the plants grown under equal initial N supplement but in contrasting conditions of the evironment, the correlation between concentration of total N and chlorophyll in the leaves was absent. No interrelationship was found between concentration of total N in the leaves and accumulation of N and dry matter in the whole plants. There is a close correlation between chlorophyll in the leaves, accumulation of total N, and dry matter of the whole plant. It was concluded that chlorophyll is a more stable informative parameter for the estimation of the N uptake from the soil under different growth conditions than leaf N concentration. 相似文献
39.
《Communications in Soil Science and Plant Analysis》2012,43(1-2):81-100
Abstract Differential thermogravimetry (DTG), differential scanning calorimetry (DSC), and stepwise thermogravimetry (STG), together with two acid hydrolysis methods (hydrolysis with hydrochloric acid in a single step, and hydrolysis with sulfuric acid in two steps), were evaluated to determine the quality of four plant materials (Medicago sativa, Eucalyptus globulus, Quercus ilex, and Pinus halepensis) before and after mixing with a red earth. These quality indices were then compared with the same materials in the field, whether their decomposition could be predicted. All the thermal methods gave poor results. In both DTG and DSC, the presence of the mineral matrix gave rise to strong distortions in the spectra. Since the spectrum of any mixture is not simply the sum of the spectra of the two components (organic matter + mineral matter), these distortions could not be corrected by simply subtracting the spectrum of the red earth alone. STG trials also gave poor results, because the presence of the mineral matrix greatly increased the quality indices, and reduced the ability of the method to distinguish between organic matter qualities. In view of our results, the usefulness of thermal methods in the characterization of soil organic matter would seem to be restricted to certain organic horizons (L, F, and perhaps H). In contrast, methods based on acid hydrolysis were comparatively more satisfactory. Their resolution (ability to distinguish organic matter qualities) was much higher than that of thermal methods. However, they were able to distinguish carbon more accurately than nitrogen. The sulfuric acid method, unlike the hydrochloric acid method, was affected by the presence of a mineral matrix. While both methods could be improved, in their present form they seem to operate as good predictors of carbon and nitrogen mineralization. 相似文献
40.