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人工湿地生态根孔技术及其应用 总被引:4,自引:2,他引:4
人工湿地亚表层介质的堵塞问题一直是湿地系统持续有效运行的障碍,极大地限制了人工湿地技术的大规模工程应用.通过白洋淀自然湿地现场研究,发现由大型水生植物所形成的根孔异常发达,径级不等的死活根孔混合在一起,组成了庞大的湿地根孔网络.人工湿地生态根孔技术通过模拟白洋淀湿地自然的芦苇根孔系统,以人为填埋的植物秸秆作为湿地的填料/介质,有效地改变了土壤亚表层大孔隙结构,为人工湿地建设和应用开辟了一条新途径.通过构筑根孔和自然根孔之间的过渡和湿地根孔的不断更新,实现湿地填料/介质的自我更新,克服了一般潜流人工湿地其填料/介质易发生堵塞的缺点.构筑根孔有效填补了人工湿地运行初期大量自然根孔尚未形成的空白期.该技术在小试湿地中获得了成功应用.以玉米秸秆和地肤秸秆作为小试模拟湿地的填埋介质,其填埋量体积比为2%~4%.与未填埋秸秆的基质土壤处理单元相比,填埋秸秆处理单元其导水效率和营养盐去除能力都得到了有效提高.研究结果表明:填埋秸秆腐烂后形成的构筑根孔其水分侧向入渗率是基质土壤的20倍左右.在中、低营养盐负荷情况下,填埋秸秆处理单元对溶解性总氮(DTN)去除率平均提高4.5%~27.1%;对溶解性总磷(DTP)去除率平均提高7.0%~20.4%. 相似文献
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通过分析国内外垃圾焚烧发电厂烟气净化系统的现状,基于燃煤电站和垃圾焚烧发电厂烟气物性之间的相似性及燃煤电站超低排放系统的先进性,提出了分别以循环流化床法脱硫和高效协同型湿法脱硫技术为核心的垃圾焚烧烟气超低排放改造可行技术路线,并分析了2种技术路线的初投资和运行成本.结果表明:2种技术路线的初投资相当,约为1.37万元/t,但以湿法脱硫为核心的技术运行费用较高,日运行成本约为16.46元/t;采用环保电价补贴政策时,2种烟气超低排放技术路线超过政策发电量部分的发电收入分别可以在3a和7a内弥补超低排放改造及运行带来的资金支出. 相似文献
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沼气发电工程作为解决环境问题、提供清洁能源的有效方法,其运行不仅解决了沼气工程中的一些主要环境问题,而且高效率地产生大量电能和热能,为沼气的综合利用开拓了更广泛的应用前景.上海东海啤酒有限公司采用国内刚刚兴起的沼气发电技术,变害为宝,取得了社会、经济、环境的效益三丰收. 相似文献
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利用秸秆发电是实践循环经济的一条重要途经,具有多方面的优势,近年来在我国得到较快发展。然而,达到我国中长期发展目标,还面临许多问题。在对五河凯迪生物质能发电厂调查研究的基础上,分析了影响我国秸秆发电产业发展的制约因素,并提出对策建议。 相似文献
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生物质发电是将废弃生物质变成可再生能源得以充分利用,这些工程将减少来自于生物质自然腐烂和无控燃烧产生的温室效应,这不仅节约了煤炭,同时也减少了二氧化碳的排放。本文中以某生物质项目发电为例,根据CDM方法学ACM0006计算了该项目的减排量。结果表明,该项目10年间共减少了二氧化碳排放量2 075 140吨,给中国带来了可观的经济效益和环境效益。 相似文献
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Xiaoshun Li Futian Qu Dongmei Jiang Peixin Zhu 《Frontiers of Environmental Science & Engineering in China》2009,3(3):348-353
Power generation using straw biomass has quantifiable benefits from an economic, ecological, and sociological perspective
in China. The methods used to construct the assessment models of these integrated benefits were the revenue capitalization
approach and the discounted-cash-flow approach. The results indicated that a straw power plant with the capacity of 2.50×107W and burning 1.23×105 tons of cotton straw could annually supply 1.40×108 kWh of power. However, it would not be until six years later that these results could be measured. Over the long term, the
gross benefits could reach up to 4.63×108 Yuan. Therefore, the total benefits are expected to be 1.18 × 1012 Yuan if all available straw resources are used to generate power. The policy implication showed that the long-term integrated
benefits of power generation by straw biomass outweighed the short-term benefits. This is the main incentive to use straw
biomass for power generation in the future. 相似文献
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生物质发电是将废弃生物质变成可再生能源得以充分利用,这些工程将减少来自于生物质自然腐烂和无控燃烧产生的温室效应,这不仅节约了煤炭的同时也减少了二氧化碳的排放。本文中以某生物质项目发电为例,根据CDM方法学ACM0006计算了该项目的减排量。结果表明,该项目10年间共减少了二氧化碳排放量2,075,140 t,给我国带来了可观的经济效益和环境效益。 相似文献
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本文基于电力行业上市公司年报数据将传统CGE模型中的电力部门细分为7个发电部门,其中包含水电、风电、光伏和生物质电4个可再生能源发电部门.首先基于传统CGE模型和电力部门细分的CGE模型比较了我国引入可再生能源发电技术前后征收碳税对宏观经济的影响,然后分析了单一碳税政策、碳税与可再生能源发电补贴复合政策对可再生能源发电技术发展的影响.研究发现:引入可再生能源发电技术后,征收碳税对宏观经济的负面影响相比没有引入而言将有所降低;征收碳税将促进可再生能源发电技术的发展;在征收碳税的同时如果对特定可再生能源发电技术给予补贴,可能会对未受到补贴且不具备成本比较优势的可再生能源发电技术产生“挤出效应”. 相似文献
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《Journal of Cleaner Production》2008,16(18):1971-1979
Growing demand for paper is putting pressure on the World's forests, and although paper made from agricultural residues could meet global demand five times over, today less than 10% is made using these resources. The primary reason for this is the absence of cost effective, small-scale (∼10,000 tonnes per annum), environmentally sound pulping technology. The BioRegional MiniMill was developed in response to this problem. The MiniMill is a modular, regional scale, sustainable pulping process designed for straw and other non-wood feedstocks. The MiniMill innovates in two key areas: (i) preparation, feeding and pulping of straw using a twin screw extruder to reduce energy use, produce pulp in a shorter time and improve pulp quality, and (ii) the inclusion of a small-scale black liquor chemical and energy recovery system, based upon novel fluidised bed technology. The MiniMill is projected to be cost competitive at less than one-tenth the size of the smallest conventional wood-based pulping mill. As with conventional pulp mills, the MiniMill recovers enough renewable energy from the effluent to power the mill and qualifies for carbon emissions credits in accredited countries. In this work we report on some of the key research and development activities, at laboratory, pilot and semi-industrial scale, that have underpinned the design and development of the MiniMill. The ultimate goal of the project is to make available a technically and economically viable process for small-scale cellulose pulp production, that will facilitate the uptake of alternative uses of wheat straw, hemp or flax into the market place. 相似文献