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富营养化水体中的大量藻类对水质和生态系统构成极大威胁,利用生物法控制藻类是一个重要的发展方向。本文综述了利用鱼类、大型水生植物、底栖生物以及微生物等的控藻技术,分析了各项技术的特点和适用范围,并对相关研究进行了展望。 相似文献
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秸秆生物型煤走煤能源利用可持续发展之路 总被引:1,自引:0,他引:1
研究出生物型煤的生产工艺流程和最佳化配方,摸索出生物型煤成型主机的合理运行参数,成功试验生产出新型能源生物型煤,为中国煤能源可持续发展利用开辟了新途径,有助于解决成都地区秸秆燃烧造成大气污染问题。 相似文献
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生物吸附剂及其吸附性能研究进展 总被引:11,自引:0,他引:11
用微生物体来吸附水中的重金属是一项新兴的废水生物处理技术。藻类、细菌、真菌等是生物吸附剂的来源 ,它们对多种重金属都有较好的吸附去除效果。文章从细胞壁的结构特性概述了藻类、细菌、真菌等对重金属吸附的机理 ,介绍了它们的吸附性能 相似文献
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基于粮食安全的生物能源发展路径 总被引:1,自引:0,他引:1
由于发展生物能源产业是缓解能源供求矛盾的有效手段,世界许多国家都先后不同程度地开发了生物能源产业。随着生物能源产业的不断发展,当前粮价与石油价格的联动性日益增强,农产品的能源属性日渐显现。作为连通农业和能源的一个新兴产业,生物能源事实上面临着两端约束。生物能源产业的发展,既解决了能源问题,也造成了能源与人争粮,对粮食安全形成了挑战。我们必须在确保粮食安全的前提下关注能源安全,在协调粮食安全的同时寻求发展生物能源路径。 相似文献
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藻类在水体污染监测中的运用 总被引:15,自引:0,他引:15
利用藻类进行水体污染监测在水生生物监测中占有重要的地位。各种不同的水体污染对藻类的种类,数量,结构等产生相应的影响,在一定程度上表明了水质的某种变化。 相似文献
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用污水污泥生产生物炭并应用于土壤改良,是一种经济有效的土壤修复方法,具有提高土壤肥力、固定重金属、增加土壤生物量等效果。为了深入评估污水污泥基生物炭在土壤应用中的可行性,论述了污泥生物炭的制备方法与性质,探讨了污泥生物炭施入土壤后对土壤理化性质、重金属污染及有机物污染等方面的作用,分析了污泥生物炭作为土壤改良剂的可行性和潜在的危险,并对污泥生物炭研究与应用的方向进行了展望,对促进污泥资源化利用和土壤修复具有现实意义。 相似文献
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我国政府高度重视生物质能的开发,第二代生物液体燃料是一种清洁可再生的生物质能源,较第一代生物质能源更容易获得,因此大力发展第二代生物液体燃料对改善我国能源结构,实现节能减排具有重要意义.本文从年净生物量大、耐干旱、耐盐碱等角度出发,选择出适合新疆发展的棉花、甜高粱及红柳三种第二代生物液体燃料原料植物,并在了解新疆自然条件及国家和新疆政策法规、规划的基础上,预测到2030年三种生物质能源作物生物量,为相关部门制定生物质能源政策提供参考. 相似文献
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Theresa Selfa Carmen Bain Renata Moreno Amarella Eastmond Sam Sweitz Conner Bailey Gustavo Simas Pereira Tatiana Souza Rodrigo Medeiros 《Environmental management》2015,55(6):1315-1326
Across the Americas, biofuels production systems are diverse due to geographic conditions, historical patterns of land tenure, different land use patterns, government policy frameworks, and relations between the national state and civil society, all of which shape the role that biofuels play in individual nations. Although many national governments throughout the Americas continue to incentivize growth of the biofuels industry, one key challenge for biofuels sustainability has been concern about its social impacts. In this article, we discuss some of the key social issues and tensions related to the recent expansion of biofuels production in Mexico, Colombia, and Brazil. We argue that a process of “simplification” of ecological and cultural diversity has aided the expansion of the biofuels frontier in these countries, but is also undermining their viability. We consider the ability of governments and non-state actors in multi-stakeholder initiatives (MSI) to address social and environmental concerns that affect rural livelihoods as a result of biofuels expansion. We analyze the tensions between global sustainability standards, national level policies for biofuels development, and local level impacts and visions of sustainability. We find that both government and MSI efforts to address sustainability concerns have limited impact, and recommend greater incorporation of local needs and expertise to improve governance. 相似文献
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Paul B. Thompson 《Journal of Agricultural and Environmental Ethics》2008,21(2):183-198
A noticeable push toward using agricultural crops for ethanol production and for undertaking research to expand the range
of possible biofuels began to dominate discussions of agricultural science and policy in the United States around 2005. This
paper proposes two complementary philosophical approaches to examining the philosophical questions that should be posed in
connection with this turn of events. One stresses a critique of underlying epistemological commitments in the scientific models
being developed to determine the feasibility of various biofuels proposals. The second begins with a broader set of questions
about the philosophical goals of agriculture, then queries the place that a turn to biofuels might have within the philosophy
of agriculture. Both are portrayed as viable and important. The paper itself is a preliminary stage-setting reflection on
the need for these two types of philosophical inquiry. 相似文献
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Balaji M. Panchal 《International Journal of Green Energy》2017,14(7):624-631
The preparation of sodium methoxide-treated algae catalysts and their activity in the transesterification of Pongamia pinnata seed oil by dimethyl carbonate were investigated. We also investigated the effect of the sodium methoxide-treated algae catalyst on the biodiesel yield. The development of sodium methoxide-treated algae catalysts can overcome most problems associated with dissolution in dimethyl carbonate. The products were analyzed using gas chromatography-mass spectroscopy to identify the fatty acid methyl esters in the biodiesel produced. The molar ratio of Pongamia pinnata seed oil to dimethyl carbonate in transesterification in the presence of the sodium methoxide-treated algae catalyst was observed to play a substantial role in this study, wherein the Pongamia pinnata seed oil conversion increased with increasing catalyst concentration. The highest percent conversion rate was 97%. With intense research focus and development, an ideal catalyst can indeed be developed for optimal biodiesel production that is both economically feasible and environmentally benign. 相似文献
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M. A. Wakil Md Abul Kalam H. H. Masjuki I. M. Rizwanul Fattah 《International Journal of Green Energy》2016,13(5):497-504
The increasing demand of renewable energy sources has pressed the need to search for biofuels. The world is not only thrusting for potential sources of biofuels but also surveilling not to hamper the food supply, particularly in the Third World countries, such as Bangladesh. Rice bran oil is a prominent source of biofuels. Rice, the main cereal in Bangladesh, is cultivated all the year round. Rice hull containing bran is mostly wasted and merely used as feedstock for cattle and for cooking purposes. This study considered rice bran as a prospective source of biodiesel in Bangladesh. The properties of oil collected from rice bran were investigated to ensure the production of biodiesel by transesterification. An economic analysis relative to Bangladesh was conducted, and the production rate of biodiesel under different percentage of catalyst was investigated. 相似文献
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Deborah Elcock 《Journal of the American Water Resources Association》2010,46(3):447-460
Elcock, Deborah, 2010. Future U.S. Water Consumption: The Role of Energy Production. Journal of the American Water Resources Association (JAWRA) 46(3):447-460. DOI: 10.1111/j.1752-1688.2009.00413.x Abstract: This study investigates how meeting domestic energy production targets for both fossil and renewable fuels may affect future water demand. It combines projections of energy production developed by the U.S. Department of Energy with estimates of water consumption on a per-unit basis (water-consumption coefficients) for coal, oil, gas, and biofuels production, to estimate and compare the domestic freshwater consumed. Although total domestic freshwater consumption is expected to increase by nearly 7% between 2005 and 2030, water consumed for energy production is expected to increase by nearly 70%, and water consumed for biofuels (biodiesel and ethanol) production is expected to increase by almost 250%. By 2030, water consumed in the production of biofuels is projected to account for nearly half of the total amount of water consumed in the production of all energy fuels. Most of this is for irrigation, and the West North Central Region is projected to consume most of this water in 2030. These findings identify an important potential future conflict between renewable energy production and water availability that warrants further investigation and action to ensure that future domestic energy demand can be met in an economically efficient and environmentally sustainable manner. 相似文献
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Mersie Ejigu 《Natural resources forum》2008,32(2):152-162
The past few years have seen a phenomenal rise in the production and consumption of biofuels and biodiesel at the global level. This development is of special significance to Africa, where about 550 million people (75% of the total population in Sub‐Saharan Africa) depend on traditional biomass (wood, charcoal, cow dung, etc.) and lack access to electricity or any kind of modern energy service. Derived from plants and agricultural crops, biofuels and biodiesel represent modern forms of bioenergy and more efficient use of biomass energy. Beyond efficiency, modern bioenergy offers tremendous opportunities to meet growing household energy demands, increase income, reduce poverty, and mitigate environmental degradation. In the African setting, energy and livelihoods security are indeed inseparable. This paper argues economic, social, and environmental benefits of modern bioenergy can be realized through a strategy that centres on smallholder production and processing schemes and pursuit of a livelihood approach to energy development. Such a scheme opens up new domestic markets, generates new cash incomes, improves social wellbeing, enhances new technology adoption, and lays the ground for rural economic transformation and sustainable land use. The paper concludes by underlining the vital importance of considering sound property rights and strategic planning of sustainable development as tools for sustainable energy and livelihoods security. 相似文献
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Biomass is an important renewable energy source that holds large potential as feedstock for the production of different energy carriers in a context of sustainable development, peak oil and climate change. In developing countries, biomass already supplies the bulk of energy services and future use is expected to increase with more efficient applications, such as the production of biogas and liquid biofuels for cooking, transportation and the generation of power. The aim of this study is to establish the amount of Ghana's energy demand that can be satisfied by using the country's crop residues, animal manure, logging residues and municipal waste. The study finds that the technical potential of bioenergy from these sources is 96 PJ in 2700 Mm3 of biogas or 52 PJ in 2300 ML of cellulosic ethanol. The biogas potential is sufficient to replace more than a quarter of Ghana's present woodfuel use. If instead converted to cellulosic ethanol, the estimated potential is seven times the estimated 336 ML of biofuels needed to achieve the projected 10% biofuels blends at the national level in 2020. Utilizing the calculated potentials involves a large challenge in terms of infrastructure requirements, quantified to hundreds of thousands of small-scale plants. 相似文献
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新安江水库是钱塘江的重要水源,对保障钱塘江中下游的生态安全和水体功能起着举足轻重的作用。为阐明新安江水库在流域经济发展和人类活动的影响下水环境的主要问题及保护对策,促进饮用水安全保障及构建健康水域生态系统,本文对新安江水库历年的水环境指标、浮游生物群落结构及其变化及水域生态灾变事件资料进行了综合分析。目前新安江水库存在上游来水变差、局部水域藻类异常增殖、渔业生产不合理、营养程度加重等众多问题,但其突出问题是藻类生物量增长过快。新安江水库水环境保护工作要从关注水质向维持生态系统健康转变,并尽快开展生态保育工作,控制流域污染、降低藻类数量、减少藻类异常增殖影响、科学合理渔业生产是其下一步保护的关键。而关于新安江水库的研究,虽然有一定的研究基础和资料,但对水域生态系统缺乏系统认识。研究气候变化条件下新安江水库水域生态系统的结构和功能以及长期演变规律;水利调度导致水位调整对区域水动力学条件、营养物输送过程的影响及评价水利调度对水库重要环境因子和生态系统影响;渔业养殖对水环境的影响,特别是鲢、鳙鱼大水面积养殖对水库生态系统的影响应是今后新安江水库主要的研究领域和方向。 相似文献
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Research on biofuel production pathways from algae continues because among other potential advantages they avoid key consequential effects of terrestrial oil crops, such as competition for cropland. However, the economics, energetic balance, and climate change emissions from algal biofuels pathways do not always show great potential, due in part to high fertilizer demand. Nutrient recycling from algal biomass residue is likely to be essential for reducing the environmental impacts and cost associated with algae-derived fuels. After a review of available technologies, anaerobic digestion (AD) and hydrothermal liquefaction (HTL) were selected and compared on their nutrient recycling and energy recovery potential for lipid-extracted algal biomass using the microalgae strain Scenedesmus dimorphus. For 1 kg (dry weight) of algae cultivated in an open raceway pond, 40.7 g N and 3.8 g P can be recycled through AD, while 26.0 g N and 6.8 g P can be recycled through HTL. In terms of energy production, 2.49 MJ heat and 2.61 MJ electricity are generated from AD biogas combustion to meet production system demands, while 3.30 MJ heat and 0.95 MJ electricity from HTL products are generated and used within the production system.Assuming recycled nutrient products from AD or HTL technologies displace demand for synthetic fertilizers, and energy products displace natural gas and electricity, the life cycle greenhouse gas reduction achieved by adding AD to the simulated algal oil production system is between 622 and 808 g carbon dioxide equivalent (CO2e)/kg biomass depending on substitution assumptions, while the life cycle GHG reduction achieved by HTL is between 513 and 535 g CO2e/kg biomass depending on substitution assumptions. Based on the effectiveness of nutrient recycling and energy recovery, as well as technology maturity, AD appears to perform better than HTL as a nutrient and energy recycling technology in algae oil production systems. 相似文献