网状聚合物冠醚对重金属离子的吸附性能

以Hg（NO3）2、Cu（NO3）2水溶液为模拟工业废水，以侧链具N、S配位基的网状聚合物冠醚为吸附剂，研究了聚合物冠醚对HP(2＋)、Cu(2＋)的吸附性能。讨论了溶液温度、pH值、金属离子浓度及时间对吸附性能的影响，该聚合物冠醚对Hg(2＋)具有较高的吸附容量和较快的吸附速度。     

点评城市生活垃圾处置

城市生活垃圾处置技术是减量化、资原化和无害化3结合的最优系统集成，单一的垃圾处置则存在诸多弊病。建设现代化城市必须革新理念，改革简单处置城市生活垃圾的单一化思想，以国家有关政策法规为指导，采用国际先进技术，推进城市生活垃圾处置事业的国际化。     

清洁生产与炼油污水回用

该文分析了福建炼化公司炼油污水现状，提出炼油污水回用的可能方式，并进行了初步探讨。     

厌氧条件下活性翠蓝生物降解性能研究

通过试通,考察厌氧条件下金属络合型活性染料活性翠蓝的生物降解过程,表明活性翠蓝的厌氧降解过程是氧菌对活性翠蓝与葡萄糖产生共代谢作用的结果,通过4因素3水平正交试验,厌氧条件下pH值,葡萄糖浓度,染料浓度对活性翟蓝降解率的影响是显著的,而污泥浓度的影响不显著,经正交试验确定,当pH＝6,葡萄糖浓度＝0.5g/L,染料浓主工＝20mg/L时,有利于达到较高的活性翠蓝降解率。     

产品生命周期环境负荷的研究

产品在原材料的获取．产品的生产．使用和废弃过程中都会对大气．水等造成污染。以产品为对象．利用现有的能源数据库对产品生命周期各环节的环境负荷分布进行研究。研究结果通过中型钢厂的实例可较为方便地计算产品生命周期中因使用燃料而造成的大气污染．为进行产品生态设计，清洁生产提供基础。     

高浓度有机废气生物处理研究

对生物滴滤器处理低流量、高浓度有机废气进行了研究。考察了高浓度下的有机废气净化。研究表明,正常运行情况下生物滴滤器对高浓度有机废气具有良好的净化效果,不同的污染物在相同的填料高度下具有一定的处理效率,且在一定的填料段内生化去除速率基本稳定,整个填料塔存在最大生化去除速率。     

洗涤剂禁(限)磷前后水体磷负荷变化的思考

基于杭州西湖在洗涤剂禁 (限 )磷前后总磷含量的变化 ,分析了水体磷负荷的主要来源 ,以及对在我国实行洗涤剂禁 (限 )磷工作的一些思考。     

萃取法由废催化剂制取钼酸铵

用季胺盐作萃取剂，采用一级萃取回收废催化剂中的钼，其钼回收率可达９０％，反萃液可直接得到四钼酸铵，工艺简单，操作方便，具有显著的经济效益和一定的环境效益。     

环境保护经济手段在经济合作与发展组织国家中的应用

提出了收费、补贴、押金、建立市场和强制刺激等五项环境保护经济于段的定义和分类,介绍了这些经济手段在经济合作与发展组织(OECD)国家中的应用情况,并初步讨论了它们的发展趋势和应用前景。     

Optimizing carbon sequestration in commercial forests by integrating carbon management objectives in wood supply modeling

This paper provides a methodology for generating forest management plans, which explicitly maximize carbon (C) sequestration at the forest-landscape level. This paper takes advantage of concepts first presented in a paper by Meng et al. (2003; Mitigation Adaptation Strategies Global Change 8:371–403) by integrating C-sequestration objective functions in existing wood supply models. Carbon-stock calculations performed in Woodstock^TM (RemSoft Inc.) are based on C yields generated from volume table data obtained from local Forest Development Survey plots and a series of wood volume-to-C content conversion factors specified in von Mirbach (2000). The approach is used to investigate the impact of three demonstration forest-management scenarios on the C budget in a 110,000 ha forest in south-central New Brunswick, Canada. Explicit demonstration scenarios addressed include (1) maximizing timber extraction either by clearcut or selection harvesting for greatest revenue generation, (2) maximizing total C storage in the forest landscape and in wood products generated from harvesting, and (3) maximizing C storage together with revenue generation. The level of clearcut harvesting was greatest for scenario 1 (≥15 × 10⁴ m³ of wood and ≥943 ha of land per harvesting period), and least for scenario 2 (=0 m³ per harvesting period) where selection harvesting dominated. Because softwood saw logs were worth more than pulpwood ($60 m⁻³ vs. $40 m⁻³) and were strategic to the long-term storage of C, the production of softwood saw logs exceeded the production of pulpwood in all scenarios. Selection harvesting was generally the preferred harvesting method across scenarios. Only in scenario 1 did levels of clearcut harvesting occasionally exceed those of selection harvesting, mainly in the removal of old, dilapidated stands early in the simulation (i.e., during periods 1 through 3). Scenario 2 provided the greatest total C-storage increase over 80 years (i.e., 14 × 10⁶ Mg C, or roughly 264 Mg ha⁻¹) at a cost of $111 per Mg C due to lost revenues. Scenarios 3 and 1 produced reduced storage rates of roughly 9 × 10⁶ Mg C and 3 × 10⁶ Mg C, respectively; about 64% and 22% of the total, 80-year C storage calculated in scenario 2. The bulk of the C in scenario 2 was stored in the forest, amounting to about 76% of the total C sequestered.