风景区建设初期跨越式发展的思考与借鉴——以广州增城白水寨省级风景名胜区为例

位于广州增城北部的白水寨省级风景名胜区成立于2005年,经过短短5年的建设和运营,2009年风景区的游客量猛增到330万人次,达到甚至超越了当年黄山、泰山等世界遗产的游客量.究其成功的原因,主要是高水准的科学规划、高效而渐进的管理机制、借力腾飞的市场运营和强力的政策支持.从这四方面对白水寨风景名胜区建设初期成功实现跨越式发展的经验进行系统论述,以期为其他新兴风景区的发展提供参考和借鉴.     

壳聚糖对小麦期叶中营养物质含量的影响

在不同壳聚糖浓度和时间条件下对小麦种子进行处理,通过小麦萌发后期叶中游离氨基酸、蛋白质、叶绿素和可溶性糖含量的变化,从而得出壳聚糖处理小麦种子的最佳条件为:浓度8g/L、浸种时间10h,其结果将对小麦生产提供理论基础.     

西部地级市环境监测站转型期视野中的环境统计组织体系建设探讨

通过总结西部某地级市“十一五”环境统计组织体系建设中存在的问题，从地级市环境监测站历史性转型期视野出发，提出地级市的环境统计组织建设应该依托于环境监测站的建设与发展，全力推进环境统计工作和环境监测的协同发展。     

辽宁省抚顺地区“05．8”暴雨特性分析

抚顺地区“05．8”遭受了一场短历时强暴雨的袭击，直接经济损失达62．2亿元。文中对这次暴雨特性进行了分析，对于掌握抚顺地区暴雨的变化规律十分有益的。     

安徽省冬季采暖耗能对全球气候变暖的响应

基于1971—2018年安徽省77个气象站均一化日平均温度资料,采用趋势分析等方法,研究气候变暖对冬季采暖耗能的影响。结果表明：近48年安徽省冬季显著增暖,采暖初日推迟、终日提前,采暖期长度缩短,采暖强度显著下降。冬季温度在1989年发生突变,此后进入升温通道,因而将研究序列划分为基准时段（1971—1989年）和变暖期（1990—2018年）。相比于基准时段,变暖期内采暖期长度呈现空间一致性缩短,变化幅度自东北向西南递减,皖北北部及江淮之间东部缩短程度最大,大别山及皖南山区为全省低值区。全省采暖强度均减少,减少幅度自北向南递减。采暖节能贡献率介于3.6%~8.9%之间,高值区主要位于皖北北部、江淮之间北部和沿江东部,低值区则位于大别山及皖南两大山区。     

基于不同周期PM2.5组成高时间分辨观测的PMF源解析研究

于2017年1月1日—12月31日对南京市城区大气细粒子(PM_2.5)化学组分（元素、水溶性离子和碳质组分）的小时质量浓度进行连续观测,采用正矩阵因子分析（Positive Matrix Factorization,PMF）模型分别基于全年观测数据（PMF全年）和逐月观测数据（PMF月份）进行源解析,比较不同观测周期源解析结果的差异以及对PM_2.5各组分浓度估算的准确性.结果表明：不同观测周期下,PMF源解析结果中因子类型未发生改变,但因子组成和贡献分布存在较大差异.由于PMF模型假设同一观测周期内源成分谱不发生变化,只有基于逐月观测数据的PMF源解析才能体现全年范围内因子组成和贡献分布的变化.尽管PMF全年和PMF月份的分析结果均能准确估算PM_2.5组分的月均浓度,但PMF月份结果对各组分小时浓度的估算值和观测值在时间变化上更一致.这是因为PMF模型要求对各组分浓度的平均值进行拟合,易低估（或高估）PM_2.5组分在观测周期内的极大（或极小）值.因此,基于短期（例如,月份）高分辨观测数据的PMF分析...     

Energy and exergy analysis of a PCM-based solar powered winter air conditioning using desiccant wheel during nocturnal

In this paper, heating and humidification of air for space have been carried out by using a phase change material (PCM)-based solar-powered desiccant wheel air conditioning (SPDWAC) in winter. The analysis of the setup has been done at different air flow rates. At low and high air flow rates, system has mean thermal coefficient of performance of 0.121 and 0.172, respectively, and mean exergy efficiency of 0.0787 and 0.0846, respectively. The mean thermal coefficient of performance of the system at high air flow rate (127.23 kg h-1) is 1.42 times the low air flow rate (63.62 kg h-1) and average exergy efficiency of the system at high air flow rate is 1.07 times the low air flow rate. It is observed that with an increase in air flow rate, efficiency of the evacuated tube solar air collector (ETSAC) increases. The average efficiency of the ETSAC at high air flow rate is 15.60%. The maximum average energy efficiency (17.80%) and exergy efficiency (17.08%) of the PCM storage system have been obtained at high air flow rate. The overall performance of the system showed that the use of PCM storage is feasible to run the system in winter during the hours of darkness.     

Transformations in carbon and nitrogen-forms in peat subjected to progressive thermal stress as revealed by analytical pyrolysis

To study the characteristic N-forms of humic-type materials, samples of sapric peat from Galicia (northern Spain) were heated at 350 °C for 60, 90, 120, 150 and 180 s, and studied by Curie-point Py-GC/MS, solid-state CPMAS ¹³C-NMR and ¹⁵N-NMR spectroscopies. NMR analysis of the peat samples in the progressive heating stages showed the concentration of heterocyclic N-forms, the maximum structural transition amide-to-heterocyclic forms being observed in samples heated for 120 s (56% heterocyclic N and 34% aromatic C). Under more drastic conditions all N-forms were depleted. Correlation between spectroscopic and pyrolytic data betrayed specific pyrolytic markers for the different N-forms. The intensity of the ¹⁵N-NMR amide peak tended to be positively correlated to the yield of indoles, imidazoles and pyrazoles, and negatively correlated to those of benzonitriles and pyrazines. Analytical pyrolysis also showed a progressive enrichment in lipids and alkyl macromolecules with increasing heating intensity, and a decrease in lignin-derived, polysaccharide-derived and N-containing compounds. The relative abundance of non-methoxyphenolic aromatic compounds did not change. The N-compounds in peat samples unheated or heated for 60–90 s released methylpyrazole, dimethylpyrroline, methyldiphenylindole and pyrazole, whereas peat samples heated for 120 s mainly yielded methylpyrazine and methyldiphenylindole. Dimethylpyrroline and pyrazine prevailed in samples heated for 150 s, whereas samples heated for 180 s yielded mainly pyrrole. Pyrolysis data presented low possibilities for forecasting the extent of the O-alkyl domain, but reflected quantitatively the transformations in the lignin-like moiety. Both techniques coincide in pointing out the accumulation of a recalcitrant alkyl domain possibly derived from abiotic condensations or inherited lipid biomacromolecules.     

The effect of ventilation on spontaneous heating of coal

Ventilation plays an important role in the spontaneous heating of coal in an underground coal mine. If the ventilation rate is too high, heat is carried away by convection. If the ventilation rate is too low, the reaction rate becomes oxygen-limited. The effect of ventilation on the spontaneous heating of coal was investigated in an isothermal oven in this study. Experiments were conducted on three U.S. coal samples with ventilation rates ranging from 100 to 500 cm³/min. Experiments under ventilation were conducted to determine the critical ambient temperature, which is the minimum oven temperature required for a coal sample to achieve thermal runaway. Spontaneous heating tests were then conducted at various ventilation rates at the critical ambient temperature and the results were compared with spontaneous heating tests without ventilation. It was found that there is an optimum ventilation flow to produce the maximum rate of temperature rise at the critical ambient temperature. When the coal sample particle size was increased, a higher critical ambient temperature was required. The results in this study have application in the prevention of spontaneous combustion in underground coal mines.     

District heating and ambivalent energy transition paths in urban and rural contexts

ABSTRACT

Most institutions and industrial actors believe that district heating infrastructure can play a key role in accelerating the transition to low-carbon energy systems. In this article we test this belief in Italy, starting from a census of all existing plants, subdivided by sources of supply and business organization models. We isolate two types of district heating (urban and rural) and find that they are different with respect to their approaches to energy transition. In rural areas, networks constitute systems that can empower the local techno-institutional complex to achieve a technological leap. Set in a pre-existing social network, district heating reinforces a sense of community and facilitates the involvement of various local players in a collective project. In the case of biomass, we are faced with local systems that have almost completed the transition with regard to the production of thermal and sometimes electric energy. In urban areas, on the other hand, networks represent functional devices for the stabilization of the techno-institutional complex. They allow cities to work on the circularity of some economies, generating added value from the same factors of production. The discrepancy between urban and rural contexts thus highlights the need to consider the ambivalence of district heating technology.