新疆开都—孔雀河流域天然植被生态需水量研究

本研究以新疆开都—孔雀河流域为研究区,针对流域不同保护目标,采用定额法、阿克苏水平衡站公式和阿维里扬诺夫公式三种方法,分别估算了生态红线区和生态敏感区的生态需水量。研究结果表明开都—孔雀河流域生态红线区平均需水量为13.82×10~8m~3,生态敏感区平均生态需水量为2.06×10~8m~3,且潜水蒸发法中的阿克苏水平衡站公式的计算值与平均值最为接近。由于干旱区降水量稀少,天然植被生长完全依赖地下水,一般采用潜水蒸发法间接计算植被的生态需水量,在植被需水定额不好确定的情况下,更是首选潜水蒸发法进行生态需水量的估算。研究成果可以为孔雀河生态输水工程和塔里木河下游生态输水工程的实施提供科学依据。     

Energy consumption estimation model for dual-motor electric vehicles based on multiple linear regression

ABSTRACT

The drive range of electric vehicle (EV) is one of the major limitations that impedes its universalism. A great deal of research has been devoted to drive range improvement of EV, an accurate and efficiency energy consumption estimation plays a crucial role in these researches. However, the majority of EV’s energy consumption estimation models are based on single motor EV, these models are not suitable for dual-motor EVs, which are composed of more complex transmission mechanisms and multiple operating modes. Thus, an energy consumption estimation model for dual-motor EV is proposed to estimate battery power. This article focuses on studying the operating modes and system efficiency in each operating mode. The limitation of working area of each mode ensures the vehicle dynamic performance, then PSO algorithm is adopted to optimize the torque (speed) distribution between two motors to improve the system efficiency in the coupled driving mode. Finally, the energy consumption estimation model is established by multiple linear regression (MLR). The result shows that the proposed model has a high precision in energy consumption estimation of dual-motor EV.     

热电行业利用软件管理实现节能降耗

热电行业是我国经济体系中的能耗大户、污染大户,如何在热电行业中做到节能减排、清洁生产,关系到我国的可持续发展。利用软件技术在热电行业中实施清洁生产的管理,实践中证明能实现节能降耗,为同行业开展清洁生产工作提供了新思路。     

Glutathione-functionalized melamine sponge,a mimic of a natural antidote,as a quick responsive adsorbent for efficient removal of Hg(II) from aqueous solutions

Minamata disease is caused by methylmercury, which is produced by microorganisms from inorganic mercury ions, Hg(II), in the aquatic environment. Adsorption is a feasible method to remove Hg(II) from waters, but there are some drawbacks when using conventional adsorbents, for example, tedious solid–liquid separation, slow response, and excessive residual levels of mercury. In this work, a novel spongy adsorbent has been developed for Hg(II) removal via surface functionalization of melamine formaldehyde sponge by glutathione. This material mimics a natural antidote that removes trace heavy metals in the human body. Results show that the functionalized sponge displays a 99.99% removal efficiency for low concentrations of Hg(II) of 10 mg/L. As a consequence, the residual Hg concentration is lower than 0.005 mg/L, which is slightly below the standard for total mercury in drinking water, of 0.006 mg/L, formulated by the World Health Organization, and much lower that the discharge regulation standard, of 0.01 mg/L, set by the ministry of environmental protection of China. Adsorption kinetic studies indicate that the functionalized sponge has a fast response. Indeed, the adsorption equilibrium can be reached within 10 min, and about 80% of total adsorption capacities are reached in 1 min. Moreover, the maximum adsorption capacity of the glutathione-functionalized sponge is as high as 240.02 mg/g, as shown by adsorption isotherm. Overall our findings disclose the great potential of the developed sponge adsorbent for rapid and efficient removal of Hg(II) from water.     

Synthesis of a three-dimensional network sodium alginate–poly(acrylic acid)/attapulgite hydrogel with good mechanic property and reusability for efficient adsorption of Cu2+ and Pb2+

Environmental Chemistry Letters - Water pollution caused by heavy metals has dramatically impacted ecosystems in recent years. For instance, 45.4% of lakes in China are in the category of moderate...     

昆明市松华坝水源区人口与生态环境问题研究

松华坝水源区是昆明市重要的优质饮用水源地,是昆明市人民生活及工农业生产的主要水源。近几年来,随着水源区人口增加,水源区水质与生态环境状况不断恶化,人地矛盾日益突出。分析了目前松华坝水源区水质现状与存在的主要生态环境问题,浅析了水源区生态环境问题形成的主要原因,分析了松华坝水源区生态环境与人口发展的关系,预测了水源区人口的发展趋势与水源区污染物的排放趋势,提出了水源区生态保护的具体措施与相应的人口政策。     

农作物种植结构与农民收入及其对环境影响的分析

农民增收问题是三农问题的重要环节。本文以湖南省张家界市慈利县零溪镇大庄村第五、八、十六组为研究对象,分析了自1980年实行土地包产到户以来农作物种植结构的变化及农民收入之间的关系,认为在本地以柑橘为主的单一类型农作物规模化经营最有利于降低农民劳动强度、提高农民收入,对环境既有正面影响也有负面影响,并对其带来的环境影响提出了思考和建议。     

Effects of different ratios of pig manure to fungus residue on physicochemical parameters during composting

This study examined physicochemical parameters to assess their effectiveness as stability and maturity indicators during the process of composting pig manure and fungus residue at different ratios. The results showed that composting mixtures with all ratios of pig manure to fungus residue maintained a temperature exceeding 50 °C for more than 10 days during composting and met the requirement for pathogen destruction. The treatment containing mainly pig manure showed higher nitrogen loss and a shorter thermophilic phase and maturity time than the treatment containing mainly fungus residue. The germination index (GI) values indicated that compost maturity was achieved in the final compost with initial ratios of pig manure to fungus residue of 9:1–7:3 (GIs of 101.4%, 91.2%, and 81.3%); the ratio of 6:4 did not reach compost maturity (GI of 63.8%) and had an inhibitory effect on seed germination. The results of this study suggest that a ratio of pig manure to fungus residue of approximately 8:2 can be considered suitable for the efficient and quality composting of pig manure and fungus residue.

Implications: Co-composting of pig manure and edible fungi residue with appropriate proportion can effectively reduce the risk of environmental pollution caused by agricultural wastes, as well as achieve a safer and high-quality organic fertilizer, which can be used to improve physical and chemical properties of the soil, increase crop yields, and promote agricultural sustainable development. Therefore, technique of co-composting of pig manure and edible fungi residue has a wide prospect of application in practical production all over the world.