Desertification and Sustainable Development of the Heihe River Basin in Arid Northwestern China

The Heihe River Basin of northwestern China is one of several areas severely affected by desertification. This article outlines the status of desertification in this basin. There are mainly 5 types of desertification in the Heihe River Basin, namely soil and water erosion, sandy desertification, soil aridization, soil salinization and vegetation degradation. Among the 5 types of desertification, the main desertification type is sandy desertification with an area of 10 771.97 km2; Second type is soil salinization with an area of 10 591.82 km2; Next to the soil salinization is the type of soil and water erosion with an area of 5 747.68 km2 and the other types of desertification in the Heihe River Basin are soil aridization with just area of 1 369.96 km2 and vegetation degradation type with an area of 1 490.48 km2 respectively. Both natural and man-made factors are responsible for the causes of desertification development, among which the latter is the main driving force for desertification in the basin.     

Technology development and cost analysis of multiple pollutant abatement for ultra-low emission coal-fired power plants in China

The implementation of ultra-low emission (ULE) limits (SO₂: 35 mg/m³, NOx: 50 mg/m³, PM: 10 mg/m³) promoted the development of flue gas treatment technologies in China. Pollutant control technology development for Chinese coal-fired power plants was summarized and an analysis of the applicability and cost of pollutant control technologies was conducted. Detailed data were collected from 30 ultra-low emission coal-fired units across China. Based on a cost analysis model, the average unit power generation incremental costs were 0.0144 and 0.0095 CNY/(kW·hr) for SO₂ and NOx control technologies, respectively. The unit power generation incremental cost of twin spray tower technology was 7.2% higher than that of dual-loop spray tower technology. The effect of key parameters on operating cost was analyzed. The unit power generation incremental cost increased because of increments in the electricity price for SO₂ control technology and the price of the reductant in NOx control technology. With high sulfur content or NOx concentration, the unit power generation incremental cost caused by pollutant control increased, whereas the unit pollutant abatement cost decreased. However, the annual operating hours or load increased, thereby leading to a decline in unit power generation incremental cost and unit pollutant abatement cost.     

Synthesis of a novel ternary HA/Fe-Mn oxides-loaded biochar composite and its application in cadmium(Ⅱ) and arsenic(Ⅴ) adsorption

Cadmium(Cd) and arsenic(As) are two of the most toxic elements. However, the chemical behaviors of these two elements are different, making it challenging to utilize a single adsorbent with high adsorption capacity for both Cd(Ⅱ) and As(Ⅴ) removal. To solve this problem, we synthesized HA/Fe-Mn oxides-loaded biochar(HFMB), a novel ternary material,to perform this task, wherein scanning electron microscopy(SEM) combined with EDS(SEMEDS) was used to characterize its morphological and physicochemical properties. The maximum adsorption capacity of HFMB was 67.11 mg/g for Cd(Ⅱ) and 35.59 mg/g for As(Ⅴ),which is much higher compared to pristine biochar(11.06 mg/g, 0 mg/g for Cd(Ⅱ) and As(Ⅴ),respectively). The adsorption characteristics were investigated by adsorption kinetics and the effects of the ionic strength and pH of solutions. X-ray photoelectron spectroscopy(XPS)and Fourier-transform infrared spectroscopy(FT-IR) revealed that chelation and deposition were the adsorption mechanisms that bound Cd(Ⅱ) to HFMB, while ligand exchange was the adsorption mechanism that bound As(Ⅴ).     

Chromosome doubling of Sedum alfredii Hance: A novel approach for improving phytoremediation efficiency

Sedum alfredii Hance is a cadmium(Cd)/zinc(Zn) hyperaccumulator native to China.However, its relatively low biomass restricted the large-scale application for heavy metal contamination remediation. The chromosome set doubling of S. alfredii in vitro was achieved by 0.1%–0.2%(W/V) colchicine treatment. The plant DNA ploidy was analyzed by flow cytometry and chromosome set doubling plants(CSD) were identified based on the obvious different sharp peak. A tissue culture experiment with different Cd treated levels and a field trial with natural polluted mined soil were conducted to study the effects of chromosome doubling on plant biomass and Cd accumulation in shoots. The results suggested that S.alfredii is a mixoploid. Compared with the wild type plants(WT), CSD exhibited typical"gigas" characteristics in morphology including stem thickness, root hair production,number of leaves and size of stoma guard cell. Fresh weight and dry weight of CSD were increased to 1.62–2.03-fold and 2.26–3.25-fold of WT. And Cd content of CSD showed a17.49%–42.82% increase and 59% increase under tissue culture and field condition,accordingly. In addition, the TF and in BCF of CSD were 2.37-and 1.59-fold of WT,respectively. These results proved that it is feasible to promote phytoextraction efficiency of S. alfredii in Cd contaminated soils through chromosomal engineering, which provides a novel approach for hyperaccumulator application in phytoremediation.     

厦门市森林生态系统固碳服务评估

生态系统固碳服务是生态系统服务评估的重要指标之一,也是区域碳循环研究的重要组成部分,可以为减缓气候变化的区域碳管理提供决策依据.以厦门市森林生态系统为研究对象,选取VPM（Vegetation Photosynthesis Model）和ReRSM（Remote Sensing Model for Ecosystem Respiration）评估其2015年的固碳服务,并阐明其固碳服务的时空变异.结果表明:2015年厦门市森林生态系统固碳量（以C计）为31.36×104 t/a,平均固碳量为644.86 g/（m2·a）,其时间动态总体呈单峰曲线分布,但受台风影响该曲线波动较大.厦门市森林生态系统固碳量空间格局总体表现为西北边缘地区较高、其他地区相对较低,与DEM的空间分布较为相似,且绝大部分区域为碳汇区.厦门市分区统计显示,同安区森林生态系统面积和固碳量均最大,分别占厦门市总量的52.58%和57.10%,其与翔安区、集美区的固碳量之和占厦门市总量的88.27%,是厦门市森林生态系统固碳的主体;湖里区固碳量最少,平均固碳量仅为14.25 g/（m2·a）,几乎为碳中性.研究显示,厦门市森林生态系统具有较好的固碳能力.      

厦门市陆地生态系统空气负离子服务能力评估

为探讨厦门市陆地生态系统负离子的服务能力及其影响因素,以生态系统产生的有益于人类身心健康的空气负离子个数为表征指标,改进了空气负离子服务评估方法,基于空气负离子监测数据计算了厦门市空气负离子服务功能量,并分析了厦门市空气负离子的时空变化规律及其影响因子.结果表明:厦门市2015年空气负离子服务功能量为1.37×1025个,单位面积负离子服务功能量为0.8×1016个/m2.从行政分区来看,同安区空气负离子服务功能量最大,约占厦门市总量的56.5%;从生态系统类型上看,森林生态系统空气负离子服务功能量最大,约占厦门市总量的86.6%.厦门市空气负离子日浓度存在明显的"波峰"与"波谷",波峰主要分布01:00-07:00之间,波谷主要分布在12:00左右;厦门市空气负离子浓度存在明显的季节性变化特征,夏季生态系统空气负离子平均浓度为2 437个/cm3,约为春季的2倍;不同生态系统空气负离子浓度存在明显差异,如森林远大于草地、耕地等生态系统;对于大多数生态系统类型而言,空气负离子浓度主要受到温度和湿度的影响,表现为随着温度的升高而降低、随着湿度的升高而增加.研究显示,厦门市森林生态系统的空气负离子服务能力最强,乔木绿地空气负离子服务能力大于灌木、草本绿地,城市森林、乔木绿地面积越大,为人类提供的空气负离子服务越大.      

从实现安全生产谈加强运行班组安全建设的重要性

分析了近年来因运行班组人员操作不当引发事故的原因,主要归结于日常安全管理工作和应急处置不当。提出在日常安全管理方面,操作人员须熟知岗位风险、防止“三违行为”和做好装置开停工期间的安全管理;在应急处置方面,需熟练掌握应急操作技能,培养反应快速、清晰的应急意识等措施,不断提高班组安全能力建设,以便更有效地控制安全风险,实现安全生产。     

Study on the role of copper converter slag in simultaneously removing SO2 and NOx using KMnO4/copper converter slag slurry

To achieve “waste controlled by waste”, a novel wet process using KMnO4/copper converter slag slurry for simultaneously removing SO2 and NOx from acid-making tail gas was proposed. Through the solid-liquid separation for copper slag slurry, the liquid-phase part has a critical influence on removing NOx and SO2. Also, the leached metal ions played a crucial role in the absorption of SO2 and NOx. Subsequently, the effects of single/multi-metal ions on NOx removal was investigated. The results showed that the leached metal from copper converter slag (Al3+, Cu2+, and Mg2+) and KMnO4 had a synergistic effect on NOx removal, thereby improving the NOx removal efficiency. Whereas Fe2+ had an inhibitory effect on the NOx removal owing to the reaction between Fe2+ and KMnO4, thereby consuming the KMnO4. Besides, SO2 was converted to SO42? completely partly due to the liquid catalytic oxidation by metal ions. The XRD and XPS results indicated that the Fe (II) species (Fe2SiO4, Fe3O4) in copper slag can react with H+ ions with the generation of Fe2+, and further consumed the KMnO4, thereby resulting in a decrease in the NOx removal. The characterization of the slags and solutions before and after reaction led us to propose the possible mechanisms. The role of copper slag is as follows: (1) the alkaline substances in copper slag can absorb SO2 and NO2 by KMnO4 oxidation. (2) copper slag may function as a catalyst to accelerate SO2 conversion and improve NOx removal by synergistic effect between leached metal ions and KMnO4.     

秦皇岛旅游城市建设现状与对策研究

以秦皇岛旅游城市建设为出发点,针对秦皇岛旅游城市建设现状,分析了旅游环境恶化、特色旅游产品缺乏、旅游软硬件设施水平低、旅游业带动作用弱等问题,并针对以上问题,提出了改善旅游环境、丰富旅游产品、加强旅游设施体系建设、发展旅游相关产业群等相应对策。