Study on Influencing Factors and Mechanism of Scientific and Technological Innovation Talents Gathering in Zhejiang Province

This paper systematically studies the influencing factors and mechanism of the agglomeration of scientific and technological innovation talents in Zhejiang Province. The findings are as follows: Firstly, environmental factors such as marketization level, financial development, opening to the outside world, infrastructure construction, medical resources, educational resources, cultural resources and policy support have a positive impact on the agglomeration of scientific and technological talents in Zhejiang Province;Secondly, in the transmission mechanism of the influence of various environmental factors on the concentration of scientific and technological talents in Zhejiang, economic development plays an intermediary role, and the effect is obvious. Various environmental factors indirectly affect the concentration of scientific and technological talents in Zhejiang through economic development. Finally, although both the level and quality of economic development have significant effect on the total concentration of scientific and technological talents in Zhejiang, the mediating effect of economic development level is more significant. These studies are for Zhejiang Province. It provides a theoretical basis for cultivating high-end talents and realizing the agglomeration of scientific and technological innovation talents.

The Relationship between Water Resources Use Efficiency and Scientific and Technological Innovation Level: Case Study of Yangtze River Basin in China

The Yangtze River Basin’s water resource utilization efficiency(WUE)and scientific and technological innovation level(STI)are closely connected,and the comprehension of these relationships will help to improve WUE and promote local economic growth and conservation of water.This study uses 19 provinces and regions along the Yangtze River’s mainstream from 2009 to 2019 as its research objects and uses a Vector Auto Regression(VAR)model to quantitatively evaluate the spatiotemporal evolution of the coupling coordination degree(CCD)between the two subsystems of WUE and STI.The findings show that:(1)Both the WUE and STI in the Yangtze River Basin showed an upward trend during the study period,but the STI effectively lagged behind the WUE;(2)The CCD of the two subsystems generally showed an upward trend,and the CCD of each province was improved to varying degrees,but the majority of regions did not develop a high-quality coordination stage;(3)The CCD of the two systems displayed apparent positive spatial autocorrelation in the spatial correlation pattern,and there were only two types:high-high(H-H)urbanization areas and low-low(L-L)urbanization areas;(4)The STI showed no obvious response to the impact of the WUE,while the WUE responded greatly to the STI,and both of them were highly dependent on themselves.Optimizing their interaction mechanisms should be the primary focus of high-quality development in the basin of the Yangtze River in the future.These results give the government an empirical basis to enhance the WUE and promote regional sustainable development.

An Integrated Building Information Modeling (BIM) and Circular Economy (CE) Model for the Management of Construction and Deconstruction Waste Based on Construction Methods

As the climate change signs become more noticeable, the concern to prioritize sustainability within the AEC industry intensifies. This particularly pertained to issues related to the demand of resources, the excessive consumption of raw materials, and the associated generated waste. Presently, the construction industry is ranked among the industries that are accountable for the global generation of solid waste and energy consumption, leading to detrimental environmental effects. Nonetheless, over the years, construction methods, technological innovations, and building practices have made considerable progress, influenced by a growing emphasis on sustainability, especially in energy conservation and in adopting the Industrialized Production layer of Construction 4.0 (i.e., modular prefabrication, 3D concrete printing, and BIM). The concept of Circular Economy (CE) has been identified as a potential solution to achieve sustainability in building construction through the design, construction, and end-of-life deconstruction processes that enhance the management of waste based on the framework that is related to reducing, reusing, and recycling. Moreover, information and data related to geolocation complement advanced digital technologies by providing a collaborative platform that supports the application of CE as a practical approach to sustainability. Thus, this study will provide a straightforward methodology for developing a model that integrates BIM and sustainable design with Circular Economy’s concept to enhance the sustainability of construction projects to minimize their waste based on various construction methods (i.e., conventional, modular, and 3D concrete printing). The proposed model interrelates tools and data for the evaluation and planning strategies for the construction and deconstruction waste (CDW) management at the design stage, including estimating the quantities of the wasted materials, quantifying the production rates of selected equipment for the waste handling (loading and hauling) at the various stages of a project as well their associated cost. The proposed model will help users to calculate the quantity of construction and deconstruction waste (CDW) during the design of buildings based on their different construction methods at the early stage by using the concept of Design for Deconstruction (DfD);sustainable construction methods;and deconstruction process for waste management, which will lead to the suitable construction method.

Scientific and technological progress and innovation of Three Gorges Project

In the design,construction and operation periods of the Three Gorges Project (TGP),great challenges have been met in different fields such as water resources and hydropower project construction,electromechanical equipment manufacture and ecological environment protection.In view of the key techniques and difficulties in the construction period,scientific and technological breakthroughs have been made by the experts and scholars of various fields and a series of innovative achievements are gained,which make the scientific and technological levels in relevant fields improved.Some major innovative achievements in the construction and operation of TGP are enumerated,which are significant for the hydropower project construction and clean energy development in the future in China.

High-quality Development of Selenium-enriched Industry in Guangxi Driven by Scientific and Technological Innovation

As the largest natural selenium-enriched soil area in China,Guangxi has achieved a leapfrog development in its selenium-enriched industry through the implementation of major scientific and technological projects driven by selenium-enriched innovation.The selenium-enriched industry has also become a new force in the poverty alleviation industry in Guangxi,making remarkable achievements.While summarizing and sorting out the effective measures and effects of scientific and technological innovation driving the development of selenium-enriched industry,the present paper analyzed some shortcomings and problems in the high-quality development of the selenium-enriched industry driven by the scientific and technological innovation.Finally,in view of the problems,it came up with pertinent recommendations and countermeasures,to better promote high-quality development of the selenium-enriched industry and boost the rural revitalization.

Research on the Coupling Mechanism of Creative Spirit Cultivation and Scientific and Technological Innovation Development

Migration and innovation is the driving force of scientific and technological development.By analyzing the coupling relationship between the two,this paper finds out the common elements shared by the two factors,and constructs the coupling guarantee mechanism between them,so as to provide suggestions for the coordination,win-win and synchronous benign development of the spirit of makers and the development of scientific and technological innovation,and promote the sustainable development of the national innovation system.

Scientific and Technological Innovation Is an Important Approach to Ensuring China’s Oil Security

With the rapid and continual growth of national economy, the gap between oil demand and supply keeps widening in China, therefore China will increasingly depend on imported oil. However, the world＇s oil and gas resources are unevenly distributed; global world＇s oil prices remain high; and over 70 percent of China＇s imported oil has to be shipped through the Malacca Strait. There are various ways to ensure China＇s oil security today, and the practical and feasible strategic option is to increase the discovery and production of domestic oil, raise energy efficiency and develop petroleum substitutes. Scientific and technological innovation is crucial both in new oil reserves discovery and production, energy conservation, and in the development of petroleum substitutes, establishment of a strategic oil reserve system and for environment protection. This indicates that China should take effective measures in investment strategy, fiscal policies, financing instruments, intellectual property protection, fostering talents and professionals, so as to establish its own scientific and technological innovation system in the petroleum industry and be better able to ensure oil security.

Problems of Agricultural Technological Innovation in China and Countermeasures

Major problems of agricultural technological innovation in China were summarized as below: first,poor agricultural science and technology system; second,deficient technological promotion system; third,shortage of agricultural professionals; fourth,serious shortage of science and technology input. In view of these problems,the following suggestions were given to improve the innovation of agricultural technology in China. ( 1) Restructuring agricultural research institutes,establishing cooperative innovation centers,improving agricultural technological innovation system; ( 2) Specifying the direction of research projects,improving scientific research level of technicians,so as to improve the agricultural technological innovation capacity; ( 3) Improving promotion and service stations in towns,organizing technological service teams of agricultural universities and colleges,establishing agricultural technological promotion systems; ( 4) Increasing input in agricultural technological innovation by attracting government input,enterprise investment and other financial support; ( 5) Cultivating more talents of agricultural technology,training leading agricultural technicians,grassroots agricultural service staff and practical talents.

To Promote Scientific and Technological Innovation from Higher Starting Point

The year of 2008 has been a time of achieving major victory besides withstanding enormous challenges for the economic and social development of China. Under the correct leadership of the Party Central

Analysis on Technological Innovation of Civil Engineering Construction

As an important means of human to change their living environment, building creates important wellbeing for people’s production and life, while as an important means of building construction, civil engineering plays an absolutely important role in the architectural construction. The fruitful innovation in the construction of civil engineering undoubtedly has a very important meaning and value for the development of civil engineering discipline and for the realization of human wellbeing. This paper makes analysis on several means of technological innovation of civil engineering construction, purposed to promote the practical development of civil engineering through helpful discussion and exploration.

Readiness of a Developing Nation in Implementing Automation and Robotics Technologies in Construction： A Case Study of Malaysia

The Malaysian government＇s vision to be a developed nation by 2020 has pushed forward the use of innovative technologies in most sectors and industries, including the construction industry. Through the ETP （Economic Transformation Programme）, major projects launched are expected to provide a great catalyst for the economy, and may become the platform for increasing the use of automation and highly enhanced plants and machineries in the construction industry. Innovations in most countries are mostly driven by the need to find revolutionary solutions to problems, such as a shortage of skilled labor, decreasing quality of product and processes, inferior working conditions, declining productivity and increasing costs of labor and materials. Automation and robotics technologies encompass a wide range of innovative technologies using technologically advanced machineries to improve the speed and efficiency of a given process. This paper discusses the readiness of a developing country in embracing construction automation and robotics, by exploring industry perception, suggested practices and barriers to its implementation using a questionnaire survey and semi-structured interviews directed at Malaysian construction finns of contractors, specialist sub-contractors, developers and consultants. The findings show that the Malaysian construction industry is ready, to a certain extent, for implementing the technologies in limited areas such as prefabrication and assembly and in the design, planning and costing phases.

Technological Innovation Adoption Model for Construction Products

The construction sector is in need of further self-development due to recent innovations in technology.This is because the environmental problems which have been handled seriously all over the world in recent years,and studies related to the way of creating requirements and measures for healthy construction environments have been emphasized.For adoption of new technological construction products in that sector;a system which will encompass designers,contractors and users is required.For selection and widespread use of new technological products,the decision-making is not only sufficient but also cultural and socio-economic factors and conditions are gaining in importance.For the implementation and control of the new construction product assigned,a process of testing is required.The process of testing should be structured by allowing the use of new technological products in a system of continuous self-improvement by preventing the usage without change for a substantial amount of time.All of these processes have been examined within the scope of the doctoral thesis in model,which was developed for the adoption of technological innovation.In this study,the aim is to contribute to the creation of an appropriate adoption roadmap for constant self-renewal and self-improvement of construction environments,which are sensitive to the environment.

A Decade of Scien tific and Tech no logical Inno vati on at Chin ese Academy of Medical Sciences&Peking Union Medical College:Retrospect and Prospect

Focusing on the reform initiatives of Chinese Academy of Medical Sciences(CAMS) & Peking Union Medical College(PUMC) in medical scientific and technological innovation from perspectives of deepening the reform and optimizing the ecosystem of science and technology innovation,this article summarizes the highlights of CAMS & PUMC’s efforts in safeguarding people’ s health and promoting the Healthy China 2030 strategy through scientific and technological innovation in the fields including basic research,disease prevention and treatment,and medical technology in the past ten years.These achievements embody the endeavors and responsibility of CAMS& PUMC in realizing self-reliance and self-improvement of Chinese medical science and technology and highlight its contributions to the development of medical science and technology of China.

Existing Problems and Recommendations for Cultivation of Agricultural Science and Technology Talents in China

China is a large agricultural country. Healthy and rapid development of agriculture plays an important role in overall socialist construction of China. To realize sustainable agricultural development,cultivation of agricultural science and technology innovation talents should be strengthened. Through analyzing existing problems in cultivation of agricultural science and technology innovation talents and combining actual situation of China's agricultural development,this paper came up with pertinent recommendations for strengthening China's agricultural science and technology talent cultivation,including improving agricultural science and technology innovation talent cultivation system,implementing " government- industry- university- institute" talent cultivation mode,speeding up construction of experimental teaching demonstration center,and applying human resource theories.

Study on Training Ways of Marine Science and Technology Talents Based on Behavior Analysis

Firstly,the behavior of marine science and technology talents,such as scientific research,innovation,agglomeration and flow behavior,was analyzed,and then the problems in the training of marine science and technology talents were discussed.Finally,the training ways of marine science and technology talents were proposed.

Research on Coordinating relations between Industrial agglomeration and Regional Technology Innovation Ability in Yangtze River Economic Belt

Based on principal component analysis, coordinated development model and location entropy, this paper analyzes the coordinated development of regional scientific and technological innovation ability and industrial agglomeration level and the spatial differences in Yangtze River economic zone. Firstly, the regional science and technology innovation ability is divided into two parts： innovation input and innovation transformation result. The accumulation of knowledge outside the region is introduced as a variable influencing the correlation effect, and the index system of regional innovation capability is constructed. According to the degree of coordination between the regional technological innovation ability and the level of industrial agglomeration, the Yangtze River economic belt provinces and municipalities are divided into moderate disorder class, serious disorder class, extreme disorder class, middle and lower reaches of the Yangtze River region interregional knowledge accumulation weak.

油气企业科技创新人才价值溯源分成评估

科技创新是发展新质生产力的核心力量,而科技创新人才是创新过程中的第一要素。作为油气生产的主要参与主体,油气企业要实现高水平科技自立自强,归根结底要依靠拥有高水平创新能力的人才队伍。为了激发科技人才创新活力动力,在人才价值创造与评估现状分析的基础上,依据生产全要素视角下的科技创新价值分享理论与方法,建立了油气企业科技创新人才价值溯源分成评估方法。研究结果表明:(1)油气企业科技创新是一个系统性的复杂过程,匹配油气企业科技创新特征、具有产业适应性的人才价值评估理论与方法较少;(2)油气企业科技创新人才价值溯源分成,是以油气科技创新成果经济价值评估结果为前提对参与成果创造的团队和个人按照实际贡献进行价值追溯与量化的过程,需要通过对单项科技创新成果经济价值溯源和科技创新成果完成人价值溯源两次溯源来实现;(3)以创新成果为导向的科技创新人才价值贡献率是人才价值溯源分成的核心参数,由完成人参与度、完成人创新度、完成人贡献度为内容的综合评估指标体系共同确定。结论认为,该方法为加快建立以创新价值、业绩、贡献为导向的人才评价体系提供了参考,能够有效解决人才在油气科技创新活动中的经济价值量化问题,对推动高水平科技自立自强有现实意义。

The Great Leap Development and Outlook of China's Scientific and Technological Strength(2000-2035)

Scientific and technological strength,the ability to achieve national strategic goals in science and technology,is not only a significant component of national comprehensive strength,but also the scientific and technological innovation foundation for continuous strengthening national comprehensive strength.The quantitative evaluation of China's scientific and technological strength from 2000 to 2020 shows tremendous progress in science and technology,transitioning from a catching-up country to an innovationdriven country.China has moved from the second array to the first array of global science and technology,securing a historic shift from mere quantity to high quality.This fully demonstrates the political advantage on the overall leadership of the Communist Party of China,the strategic advantage of innovation-driven development,and the advantages of the new system for mobilizing resources nationwide under the socialist market economy with a wealth of human resources in science and technology.Based on China's strategic requirements of pursuing self-reliance and strength in science and technology as support for national development,this paper proposes policy recommendations for the futuredevelopment of variousadvantagess and favorable conditions,aimingg to strengthen nationa1lstrength insstrategic science and technology and to implement the innovation-driven developmentstrategy.Furthermore,prospects for China's scientific and technologica1l visionfor 2025 and 2035 are presented,envisioning a significant increase in scientific and technological strength and China's entry into the advanced ranks among the most innovative countries in the world.

民营经济高质量发展与新质生产力:关联机理与互动路径

习近平总书记在创新发展马克思主义生产力理论的基础上提出“新质生产力”这一以科技创新为主导、以关键性颠覆性技术突破为依托的全新生产力概念。新质生产力是对传统生产力的升级与飞跃,旨在推动我国实现高质量发展。改革开放以来,民营经济在我国解放、发展生产力的过程中发挥了重要作用。步入新发展阶段,民营企业将因具备创新发展意识、产业创新优势、企业家精神才能等特殊优势而成为我国培育新质生产力的有生力量。与此同时,民营经济也将在形成新质生产力的过程中实现发展质量变革。为此,要支持民营企业参与关键核心技术攻关,动员民营企业助推新型工业化与产业现代化,引导民营经济布局新兴产业和未来产业,完善支持民营企业培育新质生产力的体制机制,以实现民营经济高质量发展与新质生产力培育的良性互促。

新质生产力:逻辑、内涵及路径

作为人类社会进步决定性力量的生产力总是处在不断新质化的运动当中,它的每一次新质化都推动着人类社会向前迈进。其中,生产力的系统性新质化牵动着人类社会实现跨越式发展。人类社会诞生至今,已经发生过两次生产力的系统性新质化,分别推动人类社会步入农耕时代和工业时代。当前,第三次生产力系统性新质化正在发生,推动着人类社会由工业时代转向数字信息时代,而新质生产力正是这次生产力跃迁的科学写照。新质生产力的“新”展现为新要素、新技术、新产业,“质”体现为高质量、多质性、双质效,“力”表现为数字、协作、绿色、蓝色和开放五大生产力。新质生产力的运行机理,就是以科技创新为轴心,将要素系统革新的牵引力通过技术系统这一媒介传导至产业系统,最终实现对传统生产力三大系统的全面重塑。加快形成新质生产力,要从四个方面入手,包括全面塑强科技创新整体能力、积极促进新要素迅速成长、聚力推进核心技术研发应用和加快建设现代化产业体系。