Theoretical and Empirical Analysis on Influence Factors of Modern Agricultural Equipment Level in the Process of Agricultural Sustainable Development

Abstract

To promote modern agricultural equipment level is one characteristic of constructing and developing modern agriculture in China. This paper makes up stepwise linear regression analysis model of influence factors of modern agricultural equipment level, and chooses rural labor, per capita income of rural residents, rural investment, proportion of people at secondary education level and at higher level in per hundred rural labor force and arable land area as independent variables, and total power of machine as induced variable. The major results show that the relativity of modern agricultural equipment level, rural investment and education level of peasants is remarkable, and they are the major influence factors of modern agricultural equipment level. Raising investment level of rural infrastructure construction as well as and research and development and promotion of advanced and applicable modern agricultural equipment, improving quality and education level of peasants can accelerate the development of China’s modern agricultural equipment effectively in the process of agricultural sustainable development.     

我国农作物秸秆综合利用概况

农作物秸秆是一种宝贵的生物质资源，但是长期以来由于传统的观念和条件的限制，综合利用程度不高。随着石化资源的日趋枯竭和环境问题的日益突出，以及人们对可持续发展、保护环境和循环经济的追求，农作物秸秆的资源化利用日益成为农业、能源、建材、化工等领域的聚焦点，各种综合利用技术不断被开发并投入产业化。     

An Environmental Kuznets Curve for N2O emissions in Germany: an ARDL approach

This paper analyses the relationship between nitrous oxide (N₂O) emissions, economic growth, agricultural land used and exports in Germany. We use time‐series data between 1970 and 2012 and the Autoregressive Distributed Lag (ARDL) methodology to test for cointegration in the long run. Results show that there is a quadratic long run relationship between N₂O emissions and economic growth, confirming the existence of an Environmental Kuznets Curve (EKC) for Germany. Agricultural land area affects N₂O emissions positively, whereas exports affect emissions negatively. The turning point is $27,880, which is within the sample and implies that Germany is in the decreasing part of the curve of environmental degradation. The paper shows that, contrary to testing the EKC in less developed countries, mitigation of N₂O emissions does not negatively affect growth in Germany. As such, it is feasible to undertake any conservative policy in order to reduce emissions without major consequences on economic sectors.     

Triple-objective optimal sizing based on dynamic strategy for an islanded hybrid energy microgrid

A triple-objective optimal sizing method based on a dynamic strategy is presented for an islanded hybrid energy microgrid, consisting of wind turbine, solar photovoltaic, battery energy storage system and diesel generator. The dynamic strategy is given based on a dynamic complementary coordination between two different master-slave control modes for maximum renewable energy utilization. Combined with the proposed strategy, NSGA-II-based optimization program is applied to the sizing optimization problem with triple different objectives including the minimization of annualized system cost, the minimization of loss of power supply probability and the maximization of utilization ratio of renewable energy generation. The sizing results and the proposed strategy are both compared and analyzed to validate the proposed method in a real case of an islanded hybrid energy microgrid on Dong’ao Island, China.     

从废阴极射线管含铅玻璃中回收金属铅的研究进展

随着显像管技术的发展,我国迎来了大量阴极射线管(CRT)玻璃的报废期。废弃的CRT玻璃中含有大量的铅,属于危险废物。从国内外废CRT含铅玻璃的处理处置现状出发,归纳总结了废CRT含铅玻璃中铅的分离回收技术工艺,并分析了其特点及存在的问题。指出,未来该领域新技术的研发应同时注重4个方面:铅的回收率高,对玻璃中的其他组分能够有效利用,满足经济可行性要求,便于工业化生产。     

次氯酸钠废液活化法制备柚子皮活性炭

以柚子皮为原料,采用次氯酸钠废液活化法制备了柚子皮活性炭,通过正交实验优化了制备条件,并运用SEM、FTIR和XRD技术对活性炭产品进行了表征。实验结果表明:制备柚子皮活性炭的最佳工艺条件为炭化温度350℃、次氯酸钠废液含量25%(φ)、次氯酸钠废液活化时间25 min、高温活化温度650℃、高温活化时间60 min;最佳条件下,柚子皮活性炭的产率为31.88%、碘吸附值为854 mg/g、亚甲基蓝吸附值为216.9 mg/g。表征结果显示:活化后的柚子皮炭具有更大的孔体积、更有序的孔径排布和更发达的孔隙结构;柚子皮活性炭表面存在大量的含氧基团;柚子皮活性炭的石墨化度为61.32%,具有较高的稳定性。     

脱硫石膏综合利用的现状与展望

介绍了国内外脱硫石膏在农业、水泥行业、建材行业和其他方面的综合利用情况,以及脱硫石膏分解技术的研究现状,探讨了分解温度、反应气氛和催化成分等因素对脱硫石膏分解效果的影响,展望了脱硫石膏的应用前景。指出:寻找脱硫石膏综合利用的新途径、找出适合脱硫石膏还原分解的气氛及其分解规律、探索有利于脱硫石膏还原分解的条件,是我国脱硫石膏实现循环利用的必经之路。     

氟化工“三废”的资源化利用

结合我国氟化工行业发展现状,分析了含氟"三废"产生情况及处置方法的最新研究进展,并通过实际工程案例进行论述。氟化工生产过程污染物主要有含氟废气及副产氯化氢、含氟高沸物及含氟污泥等。通过将氯化氢用于工业清洗及制备氯化钙、氯化铝等化学品能够合理消耗副产盐酸。焚烧处理含氟有机废气产生的氟化氢气体经水洗后副产氢氟酸。含氟高沸物通过精馏分离出高沸物组分生产高附加值产品。含氟污泥可制成建筑材料,最优工业化利用途径仍在积极研究中。     

环境分权、环境规制对农业面源污染的影响

环境规制是实现农业面源污染减排的重要手段,而科学合理地划分环境管理权力是夯实环境规制减排绩效的制度基础。厘清环境分权、环境规制与农业面源污染三者之间的关系对优化环境管理体制和促进农业绿色发展具有重要的理论与现实意义。鉴于此,文章将环境规制、环境分权和农业面源污染纳入同一分析框架,基于2005—2017年省际面板数据,构建动态面板模型和面板门槛模型,实证考察了环境分权、环境规制与农业面源污染的内在联系。研究结果显示:①环境规制是抑制农业面源污染的重要手段;环境分权、环境监察分权和环境监测分权对农业面源污染具有显著的正向作用,环境行政分权对农业面源污染则表现为负向作用。②环境事务管理权力的下放将恶化环境规制的农业面源污染减排效应,引发“绿色悖论”效应,其中环境监察分权和环境监测分权的影响尤为突出。③从区域层面来看,中西部地区环境事务管理权力下放引发的“绿色悖论”效应显著,而东部地区则不显著。④环境规制对农业面源污染的影响随环境分权程度的变化呈现出门槛特征。伴随环境分权程度的提高,环境规制对农业面源污染的影响由“援助之手”转为“攫取之手”。因此,为解决日益严重的农业面源污染,应制定差异化的环境分权策略。一方面,环境行政权力应适当下放,而环境监察和环境监测权力要逐步上移;另一方面,进一步压缩中西部地区环境政策自由裁量空间,加大农业环境考核与监督力度。同时,建立长期动态农业面源污染监测体系,形成联防联控治理格局。     

同轴流光电晕放电消除硫化氢试验研究

利用脉冲流光电晕放电消除臭气硫化氢Ｈ２Ｓ。对负脉冲供电、正脉冲供电和直流供电情况下,Ｈ２Ｓ消除效率及能量利用率进行了比较。结果表明脉冲流光电晕放电消除Ｈ２Ｓ是有效的。在负脉冲流光电晕放电过程中,Ｈ２Ｓ消除效率可达８８％,能量利用率为６．７４ｇ（ｋＷ·ｈ）。与负脉冲供电相同工作条件下,正脉冲流光电晕放电过程Ｈ２Ｈ消除效率为４５％,能量利用率为２．２７ｇ（ｋｗ·ｈ）。