28 March 2021, Volume 39 Issue 6

    

• Select all
  |

Think Tank
• Select
  Reflection on reformulating the strategies for science and technology diplomacy with the thought of building a community with a shared future for mankind

  LUO Hui

  Science & Technology Review. 2021, 39(6): 9-17. https://doi.org/10.3981/j.issn.1000-7857.2021.06.001

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  As the socialist construction with Chinese characteristics has entered a new era, China's science and technology diplomacy, based on a new historical orientation and guided by the important thought of building a community with a shared future for mankind, is accelerating the optimization and the adjustment of its strategies. This paper analyzes the unprecedented opportunities and challenges faced by China's science and technology diplomacy under the situation of momentous changes unseen in a century, explores the guiding significance of the important thought of building a community with a shared future for mankind for science and technology diplomacy, reviews the practical exploration of the important thought of building a community with a shared future for mankind in China's science and technology community, and puts forward some suggestions of speeding up the adjustment of the strategies for China's science and technology diplomacy.
Exclusive: Ocean Energy Development
• Select
  Research status and development tendency of ocean wave energy

  SHI Hongda, LIU Zhen

  Science & Technology Review. 2021, 39(6): 22-28. https://doi.org/10.3981/j.issn.1000-7857.2021.06.002

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  The renewable marine energy provides a solution to the shortage of fossil fuels and the global warming issues. And it serves as an important foundation for the development of the deep sea, the island, and the national defense. Among the various types of the marine energies, the wave energy enjoys its advantages of good quality, easy utilization, high energy flux density, and wide distribution. The wave energy is widely studied and applied. The wave energy device is now a quite mature technology, with diverse forms. In this review of the research development of the marine wave energy, the wave energy devices are classified, and the current research status and development of wave energy are summarized and evaluated. The working principle, the technology, the engineering examples and the development trend of the wave energy utilization devices are analyzed. It is shown that the technique of the wave energy devices has not yet reached the mature state. A device with high efficiency, stability and maintainability is the prime aim. In the development of the wave energy devices, the commercial development on the basis of a large-scale and arrayed layout should be a focus.
• Select
  An integrated equipment for generation of offshore wind power and ocean wave energy

  CHEN Weixing, LI Shaoxun, GAO Feng

  Science & Technology Review. 2021, 39(6): 29-34. https://doi.org/10.3981/j.issn.1000-7857.2021.06.003

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  Energy is the lifeblood of the technological and economic development. Fossil energy, such as coal, oil and natural gas, has long been the main source of energy for mankind. Although it promotes human progress, it brings about many problems. The ocean contains abundant renewable energy which is inexhaustible. Making full use of the marine energy is an important way for mankind to achieve the sustainable development. This paper designs a novel integrated equipment for generation of the offshore wind power and the ocean wave energy. The equipment can convert these two kinds of random and unstable energies into regular and stable electricity through the hydraulic energy transmission. An integrated generation farm including five units of equipment is established. Through the numerical calculations and the partial experiments, the output of the equipment and the farm is 17 MW and 91 MW, respectively.
• Select
  The performance of seesaw type wave energy converters array

  ZHAO Jiangbin, FAN Mengyu, JIN Yong, ZHOU Jianhui

  Science & Technology Review. 2021, 39(6): 35-41. https://doi.org/10.3981/j.issn.1000-7857.2021.06.004

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  The waves contain a enormous energy for exploitation and also invove great forces for destruction. A seesaw-type wave energy converter is proposed for exploitation of the huge energy, with a double-pontoon floater structure, and a vertical damping plate underwater. Waves drive the floater to produce a roll motion, and the relative rotation motion of the floater and the underwater damping plate is used to generate electricity. The structure is simple and reliable. The ANSYS-AQWA hydrodynamic analysis software is used to numerically calculate the power generation performances of the standard module, the large-area modules and the multi-body arrays. It is shown that with the linear wave of 6.28 s in period and 2 m in wave height, the seesaw device generates a power over one hundreds of watts per square meter, and could be adopted in many applications.
• Select
  Experimental study of wave run-up characteristics of oscillating buoy wave energy device

  YU Tongshun, TANG Yuying, HUANG Shuting

  Science & Technology Review. 2021, 39(6): 42-46. https://doi.org/10.3981/j.issn.1000-7857.2021.06.005

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  In the complex marine environment, there are some nonlinear phenomena such as the wave impinge on the front of the oscillationg buoy wave energy device, the wave run-up and overtopping during the interaction between the wave and the oscillating buoy, with negative effects on the safety and the working performance of the wave energy device. In this paper, the physical model tests are designed and conducted to investigate the wave run-up characteristics of the buoy on the wave-facing side, and the effects of the wave period, the value of constant PTO damping and the buoy motion amplitude on the wave run-up are discussed. Studies show that when the wave period is large and the PTO damping is small, it is beneficial to reduce the wave run-up amplitude on the wave-facing side of the buoy. When the wave period is small, the variation of the PTO damping has a very small effect on the wave run-up amplitude, while the run-up values are significantly affected by the amplitude of the heave motion.
• Select
  Experimental study of an array of oscillating buoy wave energy converters in wave tank

  HE Zechen, ZHANG Chongwei, NING Dezhi, ZHAO Junyu, HE Dong, YANG Haishi

  Science & Technology Review. 2021, 39(6): 47-52. https://doi.org/10.3981/j.issn.1000-7857.2021.06.006

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  When an array of oscillating buoy wave energy converters is deployed in front of the breakwater, there will be complex hydrodynamic interactions between the buoy absorbers of each converter. This interaction can affect the buoys' motion and the corresponding power generation properties. In this paper, physical experiments are carried out in the wave tank to investigate the hydrodynamic characteristics of an array of oscillating buoy wave energy converters in front of the breakwater. The effects of the buoys' dimension and spacing on the motion and the power generation of each device are analyzed under different wave conditions. It is found that the wave energy converter with a smaller buoy has a higher power generation capability in the considered cases. A smaller spacing arrangement may not lead to a larger power. The incident wave height has a significant effect on the power generation.
• Select
  Comparison of energy capture efficiency of oscillating buoys of different bottom shapes based on resistive control

  ZHI Guangning, YAN Jun, LIANG Haizhi, QIAO Dongsheng, NING Dezhi

  Science & Technology Review. 2021, 39(6): 53-58. https://doi.org/10.3981/j.issn.1000-7857.2021.06.007

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  To optimize the energy capture efficiency of the oscillating buoy wave energy converter, the effect of the bottom shape of the cylindrical buoy on the energy capture is studied. The commonly used oscillating buoys with the flat bottom, the cone bottom, and the hemispheric bottom are selected for comparison. Firstly, the frequency-domain model of the buoy motion is established. Then, the hydrodynamic parameters of these three buoy types, such as the added mass, the radiation damping, the wave excitation force, and the response amplitude operator, are calculated by ANSYS-AQWA software and compared. Finally, the resistive control is put into the frequency-domain motion model to investigate the energy capture efficiency of the buoys of different bottom shapes under the wave excitation. The results show that the resistive control could significantly improve the energy capture efficiency of the buoys. The hemispherical bottom buoy has a higher energy capture efficiency under wider wave spectrum conditions, while the flat bottom buoy is more suitable when the wave spectrum peak frequency is close to its natural frequency and the wave spectrum is narrow.
• Select
  Short term prediction of ocean wave energy power using long-short term memory network

  NI Chenhua

  Science & Technology Review. 2021, 39(6): 59-65. https://doi.org/10.3981/j.issn.1000-7857.2021.06.008

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  The prediction technologies of the power generation from the wave energy converters (WEC) are an urgent and crucial problem in the renewable energy planning, the power grid dispatching and the economic operation. Besides the statistical modelling, this paper presents a novel hybrid DDM for very short term (15 min-4 h) and short term (0-72 h) predictions of the wave energy power, based on the long-short term memory (LSTM) network and the results are compared with those obtained by the Artificial neural networks (ANN) and the support vector machine. The experimental results indicate that the proposed deep learning models enjoy a better performance with a high accuracy in the WEC power prediction than other related models. Furthermore, the proposed DDM methods are shown to be robust and timesaving in training and deployment, with advantages over the statistical methods in very short term and short term WEC power predictions.
• Select
  Design and simulation of an ocean energy based desalination-hydrogen cogeneration system

  LIU Hongwei, REN He, LI Wei

  Science & Technology Review. 2021, 39(6): 66-71. https://doi.org/10.3981/j.issn.1000-7857.2021.06.009

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  The energy and fresh water resources restrain the development of the hydrogen production by the electrolysis of the water. The production of the fresh water and the hydrogen by using the ocean energy can best use the marine resources. An integrated system is proposed for generating the fresh water and the hydrogen from the tidal current energy to meet the daily requirement of the fresh water and also the demand of the hydrogen produced from the water by the electrolysis. A simulation model is established to verify the feasibility of the system. The control strategy of the power generation equipment and the operation mode for high efficiency is discussed. The simulation results of a 60 kW tidal current power generator integrated with the reverse-osmosis units and the electrolyzers show that the system enjoys a good stability and can theoretically produce about 90 tons of the fresh water and about 55 Nm³ of the hydrogen per day.
• Select
  Influence of the array arrangement of tidal farm on the power generation

  DU Xiumao, SI Xiancai, YUAN Peng, TAN Junzhe, GE Jinhui, WANG Shujie

  Science & Technology Review. 2021, 39(6): 72-76. https://doi.org/10.3981/j.issn.1000-7857.2021.06.010

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  This paper studies the influence of the array arrangement of the tidal farm on the power generation, by considering different row and column spacing combinations. Based on the Delft3D-Flow module, a hydrodynamic model of the Zhaitang Island's waters is established, the site of the tidal farm is selected according to the annual average TSE index distribution, and the vertical placement is determined according to the tidal current characteristics of the Zhaitang Island's waters and the EMEC standards. And through the comparative study of 25 different arrangements, it is shown that within a certain range, the increase of the row and column spacing will reduce the total power of the array, and the changes gradually tend to be flatened.
• Select
  Design, analysis and test of low-speed direct-driven generator for marine energy

  AI Chengliu, YANG Yang, WANG Haifeng, HUANG Yuanfeng, ZHAO Wei, LIU Teng, BIAN Hui

  Science & Technology Review. 2021, 39(6): 77-83. https://doi.org/10.3981/j.issn.1000-7857.2021.06.011

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  This paper investigates a low-speed direct-driven small generator for the marine energy under the ocean conditions in China. The final dimensions of the generator are determined by analyzing and optimizing the key parameters, such as the length-diameter ratio, the air-gap length and the inner stator diameter. Then the characteristics of the cogging torque and the varying speed and loads are calculated by the 2D FEM and the analytical formulas to analyze the running performance. Further, a prototype is fabricated and the manufacturing test is conducted to validate the design. The experimental results show that the designed generator can meet the requirements of the rated output power 200 W, and enjoys a good performance under the conditions of the varying speed and loads. This research may serve as a reference for designing and controlling the low-speed direct-driven generators for the marine energy.
• Select
  Theoretical analysis of a novel thermodynamic cycle for ocean thermal energy conversion

  LIU Lei, CHEN Fengyun, PENG Jingping, GE Yunzheng, LIU Weimin, WANG Quanbin

  Science & Technology Review. 2021, 39(6): 84-89. https://doi.org/10.3981/j.issn.1000-7857.2021.06.012

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  In the new type thermodynamic cycle for the ocean thermal energy conversion system, the Guohai cycle, a lean ammonia solution and the steam extraction of the turbine heat recovery branch on the basis of the Kalina cycle are adopted in order to increase the thermodynamic efficiency. This paper applies the principle of the energy conservation and the equation of the heat balance to calculate the efficiency of the Guohai cycle under different steam pressures at the turbine inlet, in warm and cold water temperatures, and with various concentrations of the working fluid. The results show that the concentration of the ammonia and water mixture has a significant effect on the efficiency. When the temperatures of the cold and warm source are fixed, there is an optimal concentration of the ammonia and water mixture, with a higher cycle efficiency. If the temperatures of the surface warm water and the deep cold water are 26 and 5℃, respectively, the maximum efficiency of the system is 4.56% as the concentration of the ammonia and water is 92%. The cycle efficiency first increases and then decreases with the increase of the steam pressure at the turbine inlet, with a maximum value in-between. The deep cold water temperature has an influence on the cycle efficiency, while that of the surface warm water has little effect on the cycle efficiency.
• Select
  Theoretical analysis and experimental study of ocean thermal energy conversion plant of Rankine cycle

  CHEN Fengyun, LIU Lei, PENG Jingping, GE Yunzheng, LIU Weimin, WANG Quanbin

  Science & Technology Review. 2021, 39(6): 90-95. https://doi.org/10.3981/j.issn.1000-7857.2021.06.013

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  In view of the the low efficiency of the ocean thermal energy conversion(OTEC), this paper makes a theoretical analysis of the Rankine cycle based on the first law and the second law of thermodynamics, and a mathematical model for the individual equipment of the cycle is built. Through the calculations of the cycle thermal efficiency and the net power output, the variations of the thermal efficiency and the net power output against the turbine inlet pressure, the superheat and the condensation temperature are obtained. A 15 kW ocean thermal energy conversion system with the Rankine cycle is constructed and tested, and the variations of the thermal efficiency against various parameters under the simulated working conditions of the ocean temperature difference are obtained through analyzing the experiment results. The consistency between the theoretical calculations and the experimental results is verified.
• Select
  Design and performance of turbine in ocean thermal energy conversion

  GE Yunzheng, PENG Jingping, CHEN Fengyun, LIU Lei, LIU Weimin

  Science & Technology Review. 2021, 39(6): 96-101. https://doi.org/10.3981/j.issn.1000-7857.2021.06.014

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  In order to improve the cycle efficiency of the ocean thermal energy conversion (OTEC), the performance of a radial inflow turbine is studied. Based on the 1-D thermodynamic design of the turbine with the main parameters determined by experience and modified by a genetic algorithm, an aerodynamic model of the turbine is built through the 3-D design of the volute, the nozzle and the impeller. The performance of the turbine under the design condition is studied by the computational fluid dynamics (CFD) and the numerical results show that the turbine efficiency is 86.5%. Finally, it is shown that the turbine has a good performance when the nozzle-impeller relative radial clearance is 0.04 and the nozzle stagger installation is about 37°. Therefore, the nozzle-impeller radial clearance and the nozzle installation angle can be fine-adjusted to obtain a higher turbine efficiency under the design condition; and under the non-design conditions. An adjustable nozzle mechanism can be used under the off-design conditions to put the turbine in a good working state under various working conditions.
Review
• Select
  Advances in studies of common bean halo blight

  YIN Zhengong, WANG Qiang, MENG Xianxin, GUO Yifan, WEI Shuhong, LAI Yongcai

  Science & Technology Review. 2021, 39(6): 102-108. https://doi.org/10.3981/j.issn.1000-7857.2021.06.015

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  In recent years, the halo blight spreaded in a large area in the main producing areas of common bean in China, resulting in yield reductions or even crop failures with no yield at all. It is one of the main factors that endanger the production of common bean in China. However, the common bean germplasm resources against the halo blight are in an unclear state, with very few related genetic studies, and very scarce disease resistant varieties available for production. Therefore, this paper reviews studies of the pathogenic mechanism, the identification methods, the control measures, the resistance inheritance, and the selection of disease-resistant germplasm resources of common bean with anti-pathogen of halo blight, and puts forward suggestions for the urgent research directions of halo blight, to promote the research and development of genetic breeding with resistance to halo blight of common bean in China.
• Select
  Characteristics and development trend of the management system of American motor vehicle products

  LI Fangsheng, ZHAO Shijia, HU Youbo

  Science & Technology Review. 2021, 39(6): 109-116. https://doi.org/10.3981/j.issn.1000-7857.2021.06.016

  Abstract ( ) Download PDF ( ) HTML   Knowledge map   Save

  The motor vehicle product management is of great significance for ensuring the product quality, guiding the industrial development, standardizing the corporate management, and protecting the consumer rights and interests. This paper makes a systematic review of the safety self-certification and the environmental protection access management of the motor vehicle product management system in the United States, focusing on the regulatory objects, the main responsibilities, the legal basis and the basic procedures of the competent authorities, as well as the main characteristics of the motor vehicle management system, such as the perfect supervision system, the severe punishment, and the safety management and the mature recall system. In combination with the latest development trends, the latest development trend of our motor vehicle product management system is analyzed from the aspects of how the COVID-19 epidemics promote the optimization of the access management in the US, how the environmental protection access management becomes more open, and how the intelligent internet-connected vehicle management is accelerated.