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排序方式: 共有1810条查询结果,搜索用时 31 毫秒
281.
Nanqi Ren Wanqian Guo Bingfeng Liu Guangli Cao Jing Tang 《Frontiers of Environmental Science & Engineering》2009,3(4):375-379
Biological hydrogen production by dark fermentation is an important part of biological hydrogen production technologies. China is a typical developing country that heavily relies on fossil fuels; thus, new, clean, and sustainable energy development turns quite urgent. It is delightful that Chinese government has already drawn up several H2 development policies since 1990s and provided financial aid to launch some H2 development projects. In this paper, the research status on dark fermentative hydrogen production in China was summarized and analyzed. Subsequently, several new findings and achievements, with some of which transformed into scale-up tests, were highlighted. Moreover, some prospecting coupling processes with dark fermentation of hydrogen production were also proposed to attract more research interests in the future. 相似文献
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283.
UF膜与混凝粉末活性炭联用处理微污染原水 总被引:24,自引:3,他引:21
采用混凝、粉末活性炭和UF膜分离的联用技术对黄浦江原水进行试验 ,结果表明 ,混凝、粉末活性炭可有效地去除溶解性有机物 .混凝处理主要去除大分子量的有机物 ,粉末活性炭主要去除低分子量的有机物 .混凝、粉末活性炭还能有效地去除三氯甲烷生成潜能 (THMFP) ,对于低分子量的THMFP ,混凝去除效果很差 ,而粉末活性炭去除很好 .试验还表明 ,混凝、粉末活性炭还可大大降低膜的滤饼层阻力 ,当混凝剂投加量为 4mg/L时 ,膜的滤饼层阻力最小 . 相似文献
284.
对煤矿安全量化管理方法进行了理论上的深化和手段上的完善,提出了利用层次分析法确定安全管理目标标准分的方法,研制了实用、有效的应用软件系统。 相似文献
285.
镉对南美蟛蜞菊光合特性的影响 总被引:10,自引:0,他引:10
镉(Cd)积累是造成土壤重金属污染的重要因素之一,它是一种对植物生理代谢过程产生诸多影响的环境胁迫因子,光合作用的变化可以直接反映植物对Cd胁迫的适应特性.通过对外来植物南美蟛蜞菊(Wedelia trilobata (L.) Hitchc.)生长过程不同程度的Cd胁迫处理,利用光合气体交换与叶绿素荧光技术,初步观测盆栽土壤中不同质量分数的Cd对南美蟛蜞菊叶片净光合速率、蒸腾速率、水分利用效率、叶绿素质量分数与荧光特征等光合特性的影响.结果显示:①当土壤中Cd质量分数达到5 mg·kg-1时,叶片净光合速率Pn明显降低,但蒸腾速率Tr和气孔导度gs降幅较小,水分利用率WUE则没有表现出明显差异;②随着土壤中Cd的增加,叶绿素a质量分数与叶绿素a/b降低,但叶绿素b变化不明显;③ Cd质量分数达到2 mg·kg-1时,初始荧光Fo与光化效率Fv/Fm变化明显,光系统Ⅱ电子传递速率ETR和量子效率ΦPSⅡ从Cd质量分数为0.5 mg·kg-1起有明显变化.由此看出,Cd对叶绿素有一定程度的破坏作用,其中光反应中心对Cd胁迫尤为敏感,叶片光合速率和光能转化效率的下降与此密切相关. 相似文献
286.
Yubo Cao Zhaohai Bai Tom Misselbrook Xuan Wang 《Journal of the Air & Waste Management Association (1995)》2021,71(1):23-33
ABSTRACT Pig production systems in China are shifting from small to industrial scale. Significant variation in housing ammonia (NH3) emissions can exist due to differences in diet, housing design, and management practices. However, there is a knowledge gap regarding the impacts of farm-scale in China, which may be critical in identifying hotspots and mitigation targets. Here, continuous in-situ NH3 concentration measurements were made at pig farms of different scales for sows and fattening pigs over periods of 3–6 days during two different seasons (summer vs. winter). For the sow farms, NH3 emission rates were greater at the small farm (summer: 0.52 g pig?1 hr?1; winter: 0.21 g pig?1 hr?1) than at the large farm (summer: 0.34 g pig?1 hr?1; winter: 0.12 g pig?1 hr?1). For the fattening pig farms, NH3 emission rates were greater at the large farm (summer: 0.22 g pig?1 hr?1; winter: 0.16 g pig?1 hr?1) than at the small farm (summer: 0.19 g pig?1 hr?1; winter: 0.07 g pig?1 hr?1). Regardless of farm scale, the NH3 emission rates measured in summer were greater than those in winter; the NH3 emission rates were greater in the daytime than at the nighttime; a positive relationship (R2 = 0.06–0.68) was established between temperature and NH3 emission rate, whereas a negative relationship (R2 = 0.10–0.47) was found between relative humidity and NH3 emission rate. The effect of farm-scale on indoor NH3 concentration could mostly be explained by the differences in ventilation rates between farms. The diurnal variation in NH3 concentration could be partly explained by ventilation rate (R2 = 0.48–0.78) in the small traditional farms and by emission rate (R2 = 0.26–0.85) in the large industrial farms, except for the large fattening pig farm in summer. Overall, mitigation of NH3 emissions from sow farms should be a top priority in the North China Plain. Implications: The present study firstly examined the farm-scale effect of ammonia emissions in the North China Plain. Of all farms, the sow farm was identified as the greatest source of ammonia emission. Regardless of farm scale, ammonia emission rates were observed to be higher in summer. Ammonia concentrations were mostly higher in the large industrial farms partly due to lower ventilation rates than in the small traditional farms. 相似文献
287.
288.
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290.
In order to evaluate the municipal sewage treatment systems used at Harbin municipal sewage treatment plant for their pollutant removal efficiency, raw sewage and effluent samples at different treatment stages from the sewage treatment systems were taken, priority pollutants (PPs) were identified and quantified using gas chromatography-mass spectrometry (GC-MS) and inductively coupled plasma-atomic emission spectrograph (ICP-AES). The test results indicated that there were one hundred and fifty species of organic pollutants identified in the raw sewage sample, and only ten species of PPs in all the sewage samples. The levels of dimethyl phthalate (DMP), diethyl phthalate (DEP), dibutyl phthalate (DBP), di-n-octyl phthalate (DnOP) in the sewage samples were 0.779-0.111 microg l(-1), 1.977-0.022 microg l(-1), 6.411-2.194 microg l(-1) and 7.152-2.953microg l(-1), respectively, and most of these phthalate esters (PAEs) were removed through anaerobic/aerobic (A/O) process; The levels of alachlor, acetochlor, atrazine were 0.074-0.021 microg l(-1), 0.160-0.096 microg l(-1) and 0.238-0.184 microg l(-1), respectively, and the total removal efficiency of atrazine was poorest through the sewage treatment systems. The levels of Cu, Cr, Se, Hg, Ni and Zn were 0.0030-0.2327 mg l(-1). It is therefore concluded from these results that the sewage treatment systems were efficient in removing most of the organic and inorganic compounds in this study, and so, the discharged effluent could cause little of the secondary pollution of the aquatic environment. 相似文献