高职院校环境思政新模式探索——以湖北工业职业技术学院为例

大学生宿舍作为高校学生管理“五级责任”的基础责任,如何从单纯的住宿职能逐步向教育职能拓展,是学生管理工作面临的重要课题。针对学生宿舍缺乏专业育人队伍、宿舍育人载体单一、宿舍管理模式落后、宿舍文化氛围薄弱等问题,探讨通过完善机制、搭建平台、丰富载体等方式,将学生管理工作前移,把宿舍作为学生思想政治工作的平台、行为习惯养成的基地、培养团队合作精神和提升学生自我管理能力的场所,探索宿舍育人和环境思政,以保障学生安全和校园稳定。

“科学—技术—工业”作为资本存在的积极扬弃——马克思《1844年经济学哲学手稿》研究

马克思在《1844年经济学哲学手稿》中基于'资本一劳动'二元对立的理论框架,从人与自然、人与社会的双重对象性关系相统一的维度,形成了'第一次试图对资本主义和资产阶级政治经济学进行批判性考察'的'第一个分析范式'——对象性存在视域的'科学—技术—工业'分析范式。马克思在此分析范式的基础上,不仅对'科学—技术—工业'作为资本存在条件下的劳动异化、科技异化等进行了批判性考察,而且深刻地揭示了资本主义社会诸种异化的实质——科学和技术日益与工业相结合,进而形成了整体意义上作为资本存在的'科学—技术—工业'的现实。因此,在对共产主义的理论观点进行阐发的过程中,马克思形成了'‘科学—技术—工业’作为资本存在的积极的扬弃'的思想。本文在对这一思想进行考证的基础上,揭示其思想实质和价值旨归是异化劳动的克服和自由劳动的实现,其实现路径是工人阶级采取现实的共产主义行动,通过打碎私有制的桎梏来使本阶级和整个社会获得解放。在'科技—经济—社会'高度一体化的社会主义市场经济新时代,马克思的这一思想对当代中国如何实现'科学—技术—工业'作为资本存在的积极扬弃进而避免科技异化具有重大现实意义。

对象性存在视域中“科学—技术—工业”分析范式的内在构成——马克思《1844年经济学哲学手稿》研究

本文通过对《1844年经济学哲学手稿》的研读,系统地考证和梳理马克思对象性存在视域中的'科学—技术—工业'分析范武的内在构成,即对象性存在的工业、科学、技术及其三者的内在关联,进一步揭示这一分析范式不仅在马克思的整个思想发展进程中居于重要的地位,而且在'科技—经济'一体化的现代社会中对于研究市场经济的社会运行规律具有重大的理论价值和方法论意义。

基于“科学—技术—工业”分析范式的科技异化批判——马克思《1844年经济学哲学手稿》研究

马克思在《1844年经济学哲学手稿》中,根据资本主义社会'资本一劳动'二元对立的社会现实,从人与自然、人与社会的双重对象性关系相统一的维度,形成了'第一次试图对资本主义和资产阶级政治经济学进行批判性考察'的'第一个分析范式',即对象性存在视域的'科学—技术—工业'分析范式。在这一分析范式基础上,马克思深刻地剖析了科学、技术在资本主义社会中与工业资本紧密结合,科学、技术与工业资本相结合的客观事实势必导致科技的异化。同时,马克思对资本主义社会必然存在的科技异化现实进行了深入考察和分析批判,进而形成了基于'科学—技术—工业'分析范式的科技异化批判思想。这一思想,不仅在马克思主义理论发展进程中具有重大学术价值,而且对'科技—经济—社会'高度一体化的现代市场经济社会发展也具有重大的现实意义。

基于“科学—技术—工业”分析范式的劳动异化批判——马克思《1844年经济学哲学手稿》研究

在《1844年经济学哲学手稿》中,马克思在'资本—劳动'二元对立的理论框架中,从人与自然、人与社会的双重对象性关系相统一的维度,形成了他'第一次试图对资本主义和资产阶级政治经济学进行批判性考察'的'第一个分析范式'——对象性存在视域的'科学—技术—工业'分析范式。在这一分析范式基础上,马克思揭示了'科学—技术—工业'作为资本存在的条件下,雇佣劳动者在与自己的劳动产品、自己的生产活动、自己的类本质相异化的同时,必然造成人与人社会关系的全面异化。马克思基于'科学—技术—工业'分析范式对资本主义劳动异化的批判,看似对雇佣劳动者的异化劳动批判,而实质是对造成这种劳动异化的'科学—技术—工业'作为资本存在之现实的批判,是对资本凭借'科学—技术—工业'侵占和吞噬工人劳动的异化行为的批判,是对'非人的力量统治一切'的资本主义社会现实的批判。

评多斯桑托斯的“新依附论”

一国政治、经济、社会的发展都受到国际社会的影响,在世界的中心—边缘结构中,这种影响是决定性的。普雷维什的理论贡献就在于发现了世界的中心—边缘结构,依附论学派在对普雷维什的批判中也继承了中心—边缘结构这一批判性视角,并对中心国的技术垄断进行了深入分析和批判。然而,标榜为"新依附论"的多斯桑托斯似乎抛弃了中心—边缘这一批判性概念,转而使用"统治国"与"依附国"的表达式。对于分析依附现象来说,"统治国"与"依附国"的概念在解释功能方面的确显得更加直观,但是,其价值判断的色彩掩盖了解释框架的客观性。对中心—边缘概念的抛弃也致使多斯桑托斯在寻求打破依附的方案时表现出了空想的色彩,他的思维方式在本质上仍然是中心—边缘结构得以建立和巩固的线性思维,是无助于打破中心—边缘结构的。

Technical Efficiency Analysis of Electric Power Industry with Stochastic Frontier Model

A kind of algorithm was provided to resolve the calculating problem of stochastic frontier model and applied to electric power industry.By Matlab,maximum likelihood estimation is adopted to evaluate σ and λ of stochastic frontier model in this paper, then the technical efficiency of electric power companies is calculated. The calculated and analyzed results reflect the situation of the management of electric power industry on the whole,that is ,the electric power companies with high technical efficiency are those which have developed their modern enterprise system successfully.

DF_(8BJ)内燃机车交流传动控制系统

阐述了DF8BJ(“西部之光”)内燃机车交流传动控制系统的功能,对完成其控制功能的系统组成和控制策略进行了详细介绍。分析了试验过程中出现的一些问题,并提出了解决方法。试验和运用证明,该控制系统性能优良,工作稳定,能满足内燃机车交流传动的控制要求。

Study on Industrial Application of Hydrogen Sulfide Removal by Wet Oxidation Method with High Gravity Technology

The removal of hydrogen sulfide from gas plays an important role in rational utilization of resources and environ- mental protection. In this paper, the process of hydrogen sulfide removal by wet oxidation method in a rotating packed bed was investigated in a scale for treating 10 000 Nm3/h of gas. On the basis of studying the influence of the species and con- centration of alkali source, the liquid/gas volume ratio, the high gravity factor, and the hydrogen sulfide content in feed gas on the desulfurization effect, the suitable technological conditions were obtained. The hydrogen sulfide removal efficiency could reach 98.0% under these conditions. The results of continuous operation of process facilities showed that the high gravity method has many merits including higher desulfurization rate, good stability in operation, lower liquid/gas volume ratio, greater operation elasticity, and apparent energy saving effects.

Review on the nanoparticle fluidization science and technology

Gas fluidization has an ability to turn static particles to fluid-like dense flow, which allows greatly improved heat transfer among porous powders and highly efficient solid processing to become reality. As the rising star of current scientific research, some nanoparticles can also be fluidized in the form of agglomerates, with sizes ranging from tens to hundreds of microns. Herein, we have reviewed the recent progress on nanomaterial agglomeration and their fluidization behavior, the assisted techniques to enhance the fluidization of nanomaterials,including some mechanical measures, external fields and improved gas injections, as well as their effects on solid fluidization and mixing behaviors. Most of these techniques are effective in breaking large agglomerates and promoting particulate fluidization, meanwhile, the solid mixing is intensified under assisted fluidization. The applications of nanofluidization in nanostructured material production and sustainable chemical industry are further presented. In summary, the fluidization science of multidimensional, multicomponent and multifunctional particles, their multi-phase characterization, and the guideline of fluidized bed coupled process are prerequisites for the sustainable development of fluidized bed based materials, energy and chemical industry.

Fourth Industrial Revolution:Technological Drivers,Impacts and Coping Methods

The world is marching into a new development period when the digital technology,physical technology,and biological technology have achieved an unprecedented development respectively in their own fields,and at the same time their applications are converging greatly.These are the three major technological drivers for the Fourth Industrial Revolution.This paper discusses the specific technology niches of each kind technological driver behind the Fourth Industrial Revolution,and then evaluates impacts of the Fourth Industrial Revolution on global industrial,economic,and social development.At last this paper proposes possible measures and policies for both firms and governments to cope with the changes brought by the Fourth Industrial Revolution.

Development and Commercial Application of Methyl-ethyl-ketone Production Technology

A synthetic technology for the production of methyl-ethyl-ketone (MEK) is introduced, which makes use of butylene catalytic hydration to produce secondary butanol (SBA) and this is followed by dehydrogenation of SBA. By optimizing the operating conditions of a commercial unit, the running results showed that the recom-mended process was successful and that the catalysts had high activity, good selectivity, and long lifespan, which ensured long-term running in commercial units.

Research and Commercial Application of CPP Technology for Producing Light Olefins from Heavy Oil

Catalytic pyrolysis process(CPP)producing ethylene and propylene from paraffin base atmospheric residue was developed by RIPP and its first in the world unit was put into commercial operation successfully.The results of performance test showed that the yield of ethylene and propylene reached 14.84% and 22.21% ,respectively,at a reaction temperature of610℃by using Daqing atmospheric residue as the feedstock under an operation mode of producing ethylene and propylene at the same time,and the aromatic content of cracked naphtha reached 82.46% .The successful operation of this unit has opened a novel route for producing light olefins and aromatics from heavy oil,which is also a good example symbolizing the integration of refining technology with petrochemical process.

Study on Application of Bi-directional Combination Technology Integrating Residue Hydrotreating with Catalytic Cracking RICP

After analysing the disadvantages of the traditional residue hydrotreating-catalytic cracking combination process, RIPP has proposed a bi-directional combination technology integrating residue hydrotreating with catalytic cracking called RICP which does not further recycles the FCC heavy cycle oil (HCO) inside the FCC unit and delivers HCO to the residue hydrotreating unit as a diluting oil for the residue that is concurrently subjected to hydrotreating prior to being used as the FCC feed oil. The RICP technology can stimulate residue hydrotreating reactions through utilization of HCO along with an in- creased yield of FCC light distillate, resulting in enhanced petroleum utilization and economic benefits of the refinery.

Flue gas desulphurization using sodium sulfide on pilot scale

A novel technique of flue gas desulphufization （FGD） using industrial sodium sulfide as absorbent is described to remove SO2 in flue gas. The FGD byproduct in this novel technique is sodium thiosuffate （Na2S2O3 · 5H2O, Hypo） which can be used as chemical raw material. Optimal operating parameters about this technique have been determined. In order to enhance productive efficiency of sodium thiosulfate, EDTA disodium additive is added into absorption solution to prevent oxidation of sodium thiosulfate. Its optimal concentration is 0. 02 wt. %. The pH value of absorption solution is set in the range of 5 ~ 6.5. Experimental results show that SO2removal efficiency averagely reach 98.72 %. The highest productive efficiency of sodium thiosulfate reaches 83.24 %. The sodium thiosulfate formed during FGD can be separated from saturated absorbent by filtration, concentration and crystallization. The filtrate after separating sodium thiosulfate will be reused as SO2 absorbent by replenishing some fresh sodium sulfide.

The State of the Kenyan Cotton Growing Industry

From the early 1960s to late 1980s, the Kenyan cotton growing industry played a vital role in the Kenyan economy in terms of provision of employment and creation of wealth in the rural areas. It also played a central role in the textile industry which was thriving during the above mentioned period. Over the years, cotton production in Kenya has fallen steadily, such that by the year 2000, the country experienced a severe cotton fiber deficit. This study was undertaken to investigate the trend of the cotton growing industry in Kenya. Selected aspects of the industry like cost of production, cotton seed distribution, the operation of cotton gins and the quality of cotton lint were considered. Kohonen Self Organizing Maps （SOM） and K-means clustering techniques were used in data analysis. The results of this study show that Kenyan cotton farmers produced seed cotton at a break-even price of US $ 0.31 per kilogram, while the price offered was US $ 0.29 per kilogram.

Research on Robotics Application in Fruit Harvesting

The study was aimed to identify the problems and also to suggest some solutions for robotic systems applications in harvesting of kiwi and apples. The results obtained show that physicomechanical properties of the harvested fruits had an effect on the use of robotic systems. Parameters such as weight, height, width, thickness and surface area were identified as the main effect in robotic fruit harvesting. Image processing techniques also had direct effect on robotic systems operation which therefore requires careful selection procedure to achieve results accuracy. It was observed that the C# programming language used in robotic systems fruit harvesting should be parallel with the image processing to ensure accurate conversion of kinematic calculation, system input parameters and constant values. The use of hobby-type parts of a robot in the prototype study showed reliable results. However, to ensure functionality of the robotic systems application, industrial robots and servo engines should be used. It was also observed that the use of a gripper for picking the fruits from the branch must The engines that make the system work should be strong and the be made considering the physicomechanical properties of the fruit. cutting system should also be appropriate.

Industry 5.0-The Relevance and Implications of Bionics and Synthetic Biology

Bionics （the imitation or abstraction of the ＂inventions＂ of nature） and, to an even greater extent, syn- thetic biology, will be as relevant to engineering development and industry as the silicon chip was over the last 50 years. Chemical industries already use so-called ＂white biotechnology＂ for new processes, new raw materials, and more sustainable use of resources. Synthetic biology is also used for the devel- opment of second-generation biofuels and for harvesting the sun＇s energy with the help of tailor-made microorganisms or biometrically designed catalysts. The market potential for bionics in medicine, en- gineering processes, and DNA storage is huge. ＂Moonshot＂ projects are already aggressively focusing on diseases and new materials, and a US-led competition is currently underway with the aim of creating a thousand new molecules. This article describes a timeline that starts with current projects and then moves on to code engineering projects and their implications, artificial DNA, signaling molecules, and biological circuitry. Beyond these projects, one of the next frontiers in bionics is the design of synthetic metabolisms that include artificial food chains and foods, and the bioengineering of raw materials; all of which will lead to new insights into biological principles. Bioengineering will be an innovation motor just as digitalization is today. This article discusses pertinent examples of bioengineering, particularly the use of alternative carbon-based biofuels and the techniques and perils of cell modification. Big data, analytics, and massive storage are important factors in this next frontier. Although synthetic biology will be as pervasive and transformative in the next 50 years as digitization and the Intemet are today, its ap- plications and impacts are still in nascent stages. This article provides a general taxonomy in which the development of bioengineering is classified in five stages （DNA analysis, bio-circuits, minimal genomes, protocells, xenobiology） from the familiar to the unknown, with implications for safety and security, in- dustrial development, and the development of bioengineering and biotechnology as an interdisciplinary field. Ethical issues and the importance of a public debate about the consequences of bionics and syn- thetic biology are discussed.

Technical Challenges and Progress in Fluidized Bed Chemical Vapor Deposition of Polysilicon

Various methods for production of polysilicon have been proposed for lowering the production cost andenergy consumption, and enhancing productivity, which are critical for industrial applications. The fluidized bed chemical vapor deposition （FBCVD） method is a most promising alternative to conventional ones, but the homogeneous reaction of silane in FBCVD results in unwanted formation of fines, which will affect the product qualityand output. There are some other problems, such as heating degeneration due to undesired polysilicon deposition on the walls of the reactor and the heater. This article mainly reviews the technological development on FBCVD of polycrystalline silicon and the research status for solving the above problems. It also identifies a number of challenges to tackle and principles should be followed in the design ofa FBCVD reactor.

Technological Progress,Structural Change and China's Energy Efficiency

China has witnessed rapid economic development since 1978, and during the time, energy production and consumption developed at a tremendous speed as well. Energy efficiency which can be measured by energy consumption per unit of GDP, however, experienced continuous decrease. Theoretically, the change of energy efficiency can be attributed to industry structural change and technological change. In order to explain the transformation of Chinese energy efficiency, we adopt logarithmic mean Divisia index techniques to decompose changes in energy intensity in the period of 1994-2005. We find that technological change is the dominant contributor in the decline of energy intensity, but the contribution has declined since 2001. The change in industry structure has decreased the energy intensity before 1998, but raised the intensity after 1998. Decomposed technological effects for all sectors indicate that technological progresses in high energy consuming industries such as raw chemical materials and chemical products, smelting and pressing of ferrous metals, manufacture of non-metallic mineral products and household contribute are the principal drivers of China's declining energy intensity.