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21.
麻疯树愈伤组织的诱导及快速繁殖 总被引:34,自引:2,他引:34
以麻疯树(Jatropha curcas)的种子、叶柄、叶片为实验材料进行愈伤组织的诱导及快速繁殖的实验.用不同浓度的BA和IBA对其不同外植体进行试验,发现用MS培养基加0.5mg/LBA和1mg/L IBA对叶片的效果最佳.在相同BA浓度处理条件下,减小IBA浓度会对下胚轴愈伤组织的出芽产生明显的效果.叶柄要求的浓度更低,0.1mg/L BA和0.1mg/L IBA为最佳.不定芽在无激素的MS培养基中进行生根培养,通过几天的练苗过程,就能转到土壤中生长.图1表2参13 相似文献
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根据技术转移过程中技术受方的性质,将中国风机制造技术转移分为"外商独资企业"、"中外合资企业"和"中资企业"三种模式.通过技术转移的层次、技术先进程度、技术转移的规模、技术转移的速度,对三种模式下技术转移的效果进行了评价.研究发现,通过技术转移,中国风机制造技术有了迅速的发展,但落后于国际先进水平的情况仍没有改变.中资企业的技术转移模式在转移技术的层次、技术转移规模和技术转移速度上,都要优于外商独资企业和中外合资企业模式,对中国风机制造技术进步的作用更大.在此基础上,本文提出,在中资企业模式下,在引进技术的同时,积极消化吸收,并重视与外国企业开展联合研发,才能最终获得创新能力.这也应当成为中国政府激励政策作用的重点. 相似文献
23.
Peyman Amir Nazmi Afshar Mehdy Gooya Seyed Vahid Hosseini 《International Journal of Green Energy》2017,14(11):868-877
The study deals with the design and optimization of external and internal geometry of micro-wind turbines blades. A specified objective function which consists of the power coefficient and the starting time was defined and the genetic algorithm optimization technique in conjunction with the blade-element momentum theory was adopted to find the geometry of the blades including the distributions of the chord, the twist angle and also the shell thickness. Moreover, the allowable stress of the blades was considered as a constraint to the objective function. Results show that a reasonable compromise is achievable such that the starting time of the blades reduces noticeably in return for a small drop in the power coefficient. The significant improvement of the hollow blades over the solid ones indicates that the power coefficient and the starting performance could be improved through the appropriate distributions of the considered decision variables, i.e. the chord, the twist angle and also the shell thickness. 相似文献
24.
给水泵小汽轮机的转速摆动是给水系统中常见的问题,引起的原因有测量不准、PID参数整定不当、伺服系统故障等多个方面。介绍了衡水电厂3B给水泵汽轮小机转速摆动故障的分析解决过程,分析了EH油质对电液伺服系统的重要性,提出了相关检修维护注意事项。 相似文献
25.
Ren-Sheng Zhu Ji-You Peng Jun-Peng Li Shi-Qi Wang Han Zhao 《International Journal of Green Energy》2016,13(3):241-247
In this paper, computational modeling is created for 3 MW wind turbine blade using the software Solidworks, and the computations are carried out using Workbench for the fluid–structure interaction of blades due to both the rated and the extreme wind load. The methods developed are applied to the simulation of the NREL Phase VI wind turbine blades, and validation against published data is presented. Moreover, the static structural analysis for wind turbine rotor is performed using Mechanical APDL. The results show that the maximum values of stress reach 458 MPa and 76.9 MPa due to the rated and extreme wind load, respectively, which are lower than 78.3 MPa, the flexural strength of Swancor 2511-A epoxy resin for blade material. 相似文献
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A. Meana-Fernández L. Díaz-Artos J.M. Fernández Oro S. Velarde-Suárez 《International Journal of Green Energy》2020,17(3):181-195
ABSTRACTIn this work, a new airfoil shape optimized for vertical-axis wind turbine applications is proposed. Different airfoil shapes have been analyzed with JavaFoil, a panel method software. Then, the results from the analysis have been used to optimize the performance of the new airfoil shape. Afterward, Computational Fluid Dynamics (CFD) simulations of the proposed airfoil, UO-17-LDA, are run for different angles of attack to provide insight into the flow field and the mechanisms related to this increase in performance. The UO-17-LDA airfoil presents a high lift-to-drag ratio and a delayed stall angle with respect to the original FX-63-137 airfoil, making it suitable for vertical-axis wind turbine applications. This increase in performance has been verified by comparing two VAWT designs with the original and the proposed airfoil using a double-multiple streamtube model. Finally, the practicality of JavaFoil for the comparison of different airfoil geometries has been verified, as it is capable of obtaining results for a wide number of flow conditions in small computational times and with a user-friendly interface. Nevertheless, the results diverge from the actual solution for high angles of attack (beyond stall). Hence, the time and effort required to perform CFD simulations is justified to gain insight into the actual behavior of a particular airfoil, as well as to obtain a richer analysis of the flow field and the mechanisms related to the airfoil performance. 相似文献
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Kasemsan Manomaiphiboon Carina P. Paton Thayukorn Prabamroong Nuttee Rajpreeja Nosha Assareh Montana Siriwan 《International Journal of Green Energy》2017,14(6):528-539
Rapid development of wind energy has been witnessed in Thailand. However, different wind resource maps (over land) have brought great uncertainty to wind energy planning. Here, four important mesoscale wind maps were considered: DEDP (2001), World Bank (2001), Manomaiphiboon et al. (2010) of JGSEE, and DEDE (2010). The wind maps were first harmonized to a common grid at 100 m and then compared. The earlier wind maps (DEDP and World Bank) are shown to represent the lower and upper limits of predicted speed, respectively, while JGSEE and DEDE tend to be more moderate with predictions statistically closer to observations. A consolidated wind map was constructed based on their median and shown to have the best prediction performance. It was then used for the technical potential analysis, in which three large (2-MW) turbine models (two conventional and one designed for low wind speed) were considered. By GIS techniques, any land areas not feasible for large wind turbines were excluded, and the corresponding overall onshore technical potential ranges between 50 and 250 GW, depending on map and turbine model. Considering only economically feasible turbines (with capacity factors of 20%) and the median-based map, the final technical potential equals 17 GW when using the low-wind-speed model but is reduced to 5 GW with the conventional models, adequately meeting the national wind energy target of 3 GW by the year 2036. The results suggest a strong sensitivity of estimated technical potential to turbine technology and a suitability of low-wind-speed turbines for wind conditions in Thailand. 相似文献