中日韩循环经济政策比较研究

在中国经济迅猛发展的同时，投资主导型的经济模式中环境保护要素的缺失导致我国工业化发展旱、中期的资源、能源约束、效率低下和浪费严重。在我国实施循环经济刻不容缓。循环经济政策是依据不同的社会、经济和环境条件而制定的。由于历史的原因，中日韩三国在地缘关系、政治传统、风俗习惯、文化教育等内在制度和外在制度彼此趋同，反映在循环经济政策的制定、执行上也有某些相似的地方。对三国循环经济的历史和现状进行比较研究，得出有益于我国的经验，无疑具有很重大的现实意义。采用制度变迁的基本理论作为指导，运用历史研究法、调查研究法等方法进行研究，对中日韩循环经济政策演变的历程进行系统梳理和比较，深入全面地考量其指导思想和举措的选择动机，系统广泛地从多方面研究中日韩循环经济政策。并将三者加以比较，以得出对我国循环经济的发展具有较强借鉴意义的经验，更好地推进循环经济在我国的发展。     

延吉市产业结构调整与知识产业发展

延吉市土地面积小 ,水土资源紧张 ,人口与环境压力较大 ,但智力资源丰富。延吉市已经形成以二、三产业为主导的产业体系 ,但产业内部存在结构性问题。文章认为产业结构调整与发展知识产业相结合是实现城市可持续发展的重要途径 ,进而探讨了延吉市产业结构调整思路 ,提出知识产业发展方向。     

煤燃烧过程中有机钙固氟效果研究

选择醋酸钙镁、醋酸钙2种有机钙为固氟剂,在固定床管式炉上对它们的固氟效果进行了初步研究,并分析了粒径、温度、钙硫比等对试验结果的影响.通过与传统固氟剂碳酸钙的固氟效果进行比较发现:在相同实验条件下,这2种有机钙具有良好的固氟效果,高温阶段效果更加明显,温度为1 000～1 100℃时,醋酸钙镁的固氟率是碳酸钙的1.68～1.74倍,醋酸钙的固氟率为碳酸钙的1.28～1.37倍.     

约束空间可燃气体燃烧爆轰特性的数值研究

在可燃气体的输送、贮存、加工和使用过程中,容易发生可燃气体的燃烧和爆炸事故。文中基于有限体积方法,采用五阶WENO格式进行左右状态量的重构后,利用ROE格式进行空间离散,自行开发程序对甲烷氧气的气相爆轰波传播过程进行了数值研究。计算结果表明:在CH4质量分数为10%的混合气体中,高温高压气团可诱导气相发生爆轰,爆轰波以2133.3 m/s的速度传播。在带有障碍物的约束空间内,文中分析了障碍物不同高度、不同间距条件下爆轰波传播时波的绕射、马赫反射等现象,给出障碍物表面压力随时间变化历程和冲量值,揭示波与障碍物的相互作用机理以及由此引发流场的变化规律,为有效地控制可燃气体的燃烧速率、防治爆炸灾害的发生提供理论依据。     

Reaction mechanism of arsenic capture by a calcium-based sorbent during the combustion of arsenic-contaminated biomass: A pilot-scale experience

Pilot-scale combustion is required to treat arsenic-enriched biomass in China. CaO addition to arsenic-enriched biomass reduces arsenic emission. CaO captures arsenic via chemical adsorption to form Ca₃(AsO₄)₂. Large quantities of contaminated biomass due to phytoremediation were disposed through combustion in low-income rural regions of China. This process provided a solution to reduce waste volume and disposal cost. Pilot-scale combustion trials were conducted for in site disposal at phytoremediation sites. The reaction mechanism of arsenic capture during pilot-scale combustion should be determined to control the arsenic emission in flue gas. This study investigated three Pteris vittata L. biomass with a disposal capacity of 600 kg/d and different arsenic concentrations from three sites in China. The arsenic concentration in flue gas was greater than that of the national standard in the trial with no emission control, and the arsenic concentration in biomass was 486 mg/kg. CaO addition notably reduced arsenic emission in flue gas, and absorption was efficient when CaO was mixed with biomass at 10% of the total weight. For the trial with 10% CaO addition, arsenic recovery from ash reached 76%, which is an ~8-fold increase compared with the control. Synchrotron radiation analysis confirmed that calcium arsenate is the dominant reaction product.     

Sources of underground CO: Crushing and ambient temperature oxidation of coal

As a harmful gas in underground coal mine, CO seriously threatened the safety of miners. Currently, the spontaneous combustion of residual coal in goaf is generally considered as the main source of underground CO. CO gas is also widely used as an indicator gas in fire prediction in mines. However, high concentrations of CO are also detected in some mines without spontaneous combustion of coal. Therefore, in the paper, with four ranks of coal, we studied other two potential CO sources: crushing and oxidation at ambient temperature. The more completely crushed coal produces more CO. The concentration of generated CO is inversely proportional to moisture content in coal. Therefore, the addition of water can inhibit the generation process of CO during the crushing process of coal. Lignite with low metamorphic grade can be oxidized to produce CO at ambient temperature (25 °C), and anthracite with high coal rank can be only oxidized to produce CO at 60 °C. Infrared spectra indicated that the coal with rich aliphatic hydrocarbons and oxygen-containing functional groups are more susceptible to oxidation at room temperature. Moreover, the smaller particle size of coal is more beneficial to the oxidation at ambient temperature to generate CO. CO generation during coal oxidation is also closely related to the ventilation rate.     

采空区注超临界CO2防灭火试验研究

为研究超临界CO₂注入采空区防灭火的规律,自主研制了产生超临界CO₂和模拟采空区遗煤自燃升温试验系统,得到了不同温压条件下超临界CO₂注入采空区前后不同监测点的温度、O₂和CO浓度变化数据信息。试验结果表明:注入采空区的超临界CO₂发生相变,有序结构急速失序,大量吸收热量,采空区内的煤体、空气温度随时间呈线性快速下降规律,其降温能力是气态N₂的10倍;超临界CO₂在自燃发火煤体中的强渗透扩散特性,使自燃煤体快速惰化,防灭火效率高;停止注入后,小范围回温符合反二次函数特征;高压力超临界CO₂相对于低压条件,防灭火性能更佳;超临界CO₂是1种降温降氧能力显著,且输送性能优良的采空区新型防灭火材料,超临界CO₂防灭火效果优于气态N₂。     

The dark side of socialization: How and when divestiture socialization undermines newcomer outcomes

This research examines the potential downsides of divestiture socialization. We theorize that supervisor behaviors and attitudes—that is, support for authenticity and creativity expectations—moderate the different stages of a model in which newcomers' authentic self‐expression mediates the negative effect of divestiture socialization on newcomer task performance, creativity, social integration, and job satisfaction. Specifically, supervisor support for authenticity allows newcomers to express their authentic self when faced with divestiture processes, and perceived supervisor creativity expectations enable them to deploy their authentic self‐expressions to enhance their creativity. A time‐lagged, multisource study of 142 newcomer—supervisor dyads provides support for these predictions, offering notable implications for theory and practice.     

论南方稻田耕作制度的调整与改革

本文在比较全面、系统地总结改革开放１５年来，南方稻田耕作制度调整与改革所取得的成效的基础上，指出了目前南方稻田耕作制度存在的问题，提出了在新形势下南方稻田耕作制度调整与改革的对策和思路，对指导目前南方稻田耕作制度的改革具有重要参考价值．     

农村产业结构调整问题研究

本文首先对农村产业结构调整的相关概念进行了阐述.其次,分析和归纳了判断农村产业结构合理化的标准以及农村产业结构变动的影响因素.