1)straw burning秸秆焚烧
1.Influence of straw burning on the air quality in Beijing;秸秆焚烧对北京市空气质量的影响
2.This paper analysis the causes of the pollution of crop straw burning and externalities of burning straw pollution.文章从对农作物秸秆焚烧污染产生的原因进行经济学分析,从农户焚烧秸秆污染的外部性出发,分析治理污染的主要政策工具及可行性,并提出农作物秸秆焚烧污染治理的主要对策。
3.By using auto-monitored air-quality data,meteorologically observed data,telemetry information of straw burning and the backwards trajectory of pollution model,the cause and formation of the haze phenomena on 28th October 2008 in Nanjing are analyzed.结合2008年10月28日南京市出现的灰霾天气,利用环境空气自动监测数据、气象观测数据、卫星遥感监测秸秆焚烧信息及后向轨迹模型等资料,对灰霾天气过程及成因进行分析。
英文短句/例句
1.Control and Use of Straw Burning and Secondary Pollution秸秆焚烧和秸秆次生污染危害及控制利用
2.A Policy Analysis on Crop Straw Burning Pollution Control农作物秸秆焚烧污染治理的政策分析
3.Problems of Burning Straw and Its Management Countermeasures in China我国秸秆焚烧的现状危害与禁烧管理对策
4.The Effect of Crop Straw Burning on Soil Animal Community Structure in Farmland;秸秆焚烧对农田土壤动物群落结构的影响
5.The Effect of Crop Straw Burning on Soil Oribatida Community Structure in Farmland;秸秆焚烧对农田土壤甲螨群落结构的影响
6.Predicament and Way Out of Environmental Pollution Caused by Straw Burning治理秸秆焚烧环境污染面临的困局与出路
7.Principle of Indentifying Crop Straw Fire Based on MODIS and Its Algorithm Implementation Using IDL Language基于MODIS的秸秆焚烧火点识别原理及算法IDL实现
8.Satellite-Remote-Sensing-Based Monitoring of Straw Burning and Analysis of Its Impact on Air Quality基于卫星遥感的秸秆焚烧监测及对空气质量影响分析
9.The effects of extracting solution from crop straw burning soil on the seed germination and seedling growth of soybean were studied by using the methods of sand culture.采用砂培法研究了秸秆焚烧土壤提取液对大豆种子萌发和幼苗生长的影响。
10.Effect on the content and availability nutrient in straw ash under the high temperature高温焚烧对秸秆灰渣养分含量的影响
11.Discussion on the burning and rationalization use of straw对秸秆禁止焚烧及合理化利用的探讨
12.Effects of Straw Burning on Corn Seedling and Rhizosphere Microorganism焚烧秸秆对玉米幼苗和根际微生物的影响
13.Institution Failure and Technological Innovation --the Economical Analysis of the Phenomenon of peasant s burning stalk;制度失灵与技术创新——农民焚烧秸秆的经济学分析
14.Disscussion Of How To Improve The Result Of "No Burning Straw" Work浅谈怎样提高“秸秆禁烧”工作成效
15.Viewing China s Current Development and Utilization of Biomass Energy Resources from Straw Flaring Pollution;从秸秆焚燃污染看当前我国的生物质能资源的开发利用
16.Development and Test Study on Biomass (Straw) Briquettes Combution Equipment;生物质(秸秆)成型燃料燃烧设备研制及试验研究
17.Experimental Study on the Biomass Combustion Character in Stoker-Fired Boiler;秸秆类生物质层燃燃烧特性的试验研究
18.The preliminary estimation of the selling price in the grid of straw-fired(heat supply &)power generation projects in China;秸秆直接燃烧供热发电项目上网电价初步测算
相关短句/例句
Crop straw burning秸秆焚烧
1.Crop straw burning is prohibited because of causing smog and air pollution in Henan province, it is difficult to monitor by conventional way.农村秸秆焚烧常造成灰烬飞扬,烟雾迷漫,形成空气污染。
3)straw-burning秸秆焚烧
1.The average concentrations of BC in normal period and straw-burning period are 4.2007年5~6月在合肥市郊3个站点连续实时监测碳黑气溶胶,研究其在秸秆焚烧期的变化特征和来源。
4)crop straw burning焚烧秸秆
1.The effects of crop straw burning on seedling growth of corn and its rhizosphere microorganismswere studied.焚烧秸秆对玉米幼苗生长具有明显抑制作用,苗高、苗鲜重、苗干重、苗体积、根干重、根体积、须根数、根系活力、胚乳有机物转化率均明显降低。
5)crop straw fire秸秆焚烧点
1.This paper introduced the algorithm of extracting crop straw fire using MODIS image.在算法实现上采用交互式数据语言IDL(Interactive Data Language)进行实现,大大缩短了人机交互时间,提高了秸秆焚烧点自动提取的响应速度,从而提高工作效率,促进秸秆焚烧监测工作的开展。
6)straw flaring秸秆焚燃
1.This paper starts from straw flaring pollution existed in many places of our country and puts forward some solutions to the problem through the analysis and elaboration of the problems that exist in development and utilization of biomass energy.文章以我国各地普遍存在的秸秆焚燃污染为切入点,通过对生物质能开发利用中存在的问题进行分析和阐述,提出了一些解决问题的建议。
延伸阅读
秸秆还田秸秆还田straw manure 秸秆还田(straw manure)又称秸秆直接还田肥。指前茬作物收获后,把作物秸秆直接用作后茬作物的基肥或硬盖肥。 农作物的秸秆是重要的有机肥源之一,秸秆还田是物质循环和再利用的良好形式.各个国家和地区利用秸秆的方法不相同,但传统的利用方式多是利用秸秆垫圈.制成厩肥、沤肥、堆肥、用作沼气肥原料,或直接烧成草木灰。自20世纪40年代以来,在美国出现免耕或少耕耕作法之后,秸秆搜盖地面或直接翻入土壤中以保持水土和培肥土壤的秸秆还田肥日益受到许多国家的重视。日本南方约62%的稻草直接还田,中国北方多利用大豆、玉米、高粱、麦子的根茬(或秸秆)直接还田,南方则以稻草直接还田为主. 成分及肥效作物的秸秆及残体的有机组成成分主要是纤维素、半纤维素、木质素,而蛋白质、醉溶性物质及水溶性物质等的含量相对较少。一般作物秸秆中钾、钙、硅等矿物质含量较高,其次是氮、磷。但作物种类不同,其秸秆所含的养分及组成也有所不同,通常豆科作物和油菜的秸秆含氮较多,禾本科作物的秸秆含钾较多。几种作物秸秆的主要化学组成及养分含量见表1.物秸秆类型不同,作物增产的幅度也有差异,增产率多在10%~15%之间,几种直接还田秸秆类型对作物增产率见表2。英国洛桑试验站连续18年(1934~1951),对秸秆直接还田与等量桔秆经堆腐后还田的比较试验表明,直接还田的马铃拼产t比堆腐后还田的每公顷高3.5吨,糖用甜菜高O,52吨,大麦籽提高0 .41吨。 表2几种直接还田桔杆类型及作物的增产率┌─────────────┬──────┬─────┐│还田材料及用t │平均增产幅度│平均增产率││ (kg/hmZ) │ (%) │ (%) │├─────────────┼──────┼─────┤│麦秸(或糠)类:1 500~4 500 │3 .2~60.3 │14.8士1.6 ││玉米枯类:375~15 000 │一2 .9~54.6 │13.0士1.6 ││稻草类:4 500~7 500 │0 .3~75.1 │13.2+2。
