宁东能源化工基地固体废物中汞含量分布及对环境影响

通过分析宁东能源化工基地各大燃煤电厂以及煤化工厂固体废物样品,研究了固体废物中的汞分布规律及环境影响。结果表明:汞易在脱硫石膏、粉煤灰和气化粗渣中富集,汞浓度分别为0.16、0.24、0.15 mg/kg,而炉渣和气化细渣中的汞含量则相对较低,分别为0.05、0.03 mg/kg。通过化学组成及汞含量数据分析发现,出现这种情况的原因与汞本身易挥发的性质和固体废物的物化性质有关。此外,通过固体废物浸出毒性实验发现,脱硫石膏、粉煤灰、气化粗渣的浸出汞浓度小于浓度限值(0.1 mg/L),而气化细渣因锅炉回用,不参与填埋,汞又不易在炉渣中富集,故总体上宁东能源化工基地的固体废物无汞环境污染倾向。     

低比电阻高压静电除尘器消除烟尘

红河州共有氧化平炉 2 0余台 ,一般 2台平炉产生的烟气共用一个直径 0 6ｍ～ 0 8ｍ、高 2 0ｍ的钢管烟囱排入大气。由于地理位置等原因 ,高锰酸钾生产都集中在县城周围 ,外排烟气的林格曼黑度严重超标 ,并影响居民的视角景观。虽然厂方采用多种方法治理 (如湿法、旋风加湿法、电收尘、布袋等 ) ,烟尘质量浓度达标 ,但黑烟一直未能解决。由于烟气中含有大量的炭黑和少量的煤焦油 ,加之炭黑的比重轻 ,属于疏水性物质 ,炭黑表面附有焦油 ,导致除尘失败。1　工艺简介高锰酸钾采用平炉氧化一步法生产 ,人工加煤 ,自然抽风 ,一般 3ｈ～ 4ｈ加煤 …     

关于火电厂验收存在的问题分析

对火电厂中以煤、天然气、油或焦油、秸秆为原料时验收监测应注意的问题进行了分析和探讨。重点提出了烟气脱硫、Hg、As、氟化物的污染以及多环芳烃、二的产生和以后环评、环评批复及验收监测中应注意的问题。     

环境监测中含氯仿废液回收方法

几种具有不同沸点而又可以完全互溶的液体混合物,在加热沸腾气化时,易挥发的成份在蒸气中的含量就较原混合液中的含量为多。若将冷凝液体再行气化,易挥发的组分在第二次冷凝液中的浓度又将增加。此过程经多次重复,最终可将这两组分分开。本试验就是根据这种原理,采用简单的空管式分馏柱来实现这种“多次重复”的蒸馏过程。当沸腾着的混合     

茂名市大气PM_(2.5)在线源解析

于2014年12月31日—2015年1月12日,利用单颗粒气溶胶质谱仪对茂名市大气中PM2.5进行在线监测和分析。结果表明,茂名市大气颗粒物污染来源分布(颗粒数占比)分别为扬尘6%、工业工艺源10.9%、生物质燃烧14.7%、机动车尾气27.5%、燃煤23.4%、二次无机源7.7%和其他9.9%。空气质量从重度污染转为优良天气过程中,机动车尾气的贡献率基本保持在20%以上,而燃煤占比从28.9%降至12.3%;空气质量从优良转为污染天气的过程中,工业工艺源、二次无机源、生物质燃烧、燃煤的占比增加,而机动车尾气占比不断下降。     

能量色散X射线荧光法快速测定生物质燃料中的磷含量

应用能量色散X射线荧光光谱法建立了生物质燃料中磷含量的快速测定方法。对比分析压片压力条件、基体效应和干扰元素,明确了能量色散X射线荧光光谱法的测试条件,通过加标回收率实验、标准样品测试、ICP-OES方法对比等获得实验结果。实验结果表明:能量色散X射线荧光光谱法用于生物质燃料样品的分析,标准工作曲线线性相关系数为0.998 3,方法检出限为0.4 mg/kg,平均加标回收率为98.1%,测定值的相对标准偏差为1.36%~4.92%,标准样品磷含量在标准值不确定度内,能量色散X射线荧光光谱法与行业标准ICP-OES方法的准确度和精密度不存在显著性差异,可应用于生物质中磷含量的环境监测。     

煤气化过程中气态污染物采样分析的研究进展

通过考察气态污染物采样方法的基本原理，对比分析国内外常压采样系统和加压采样系统的设计特征，选择煤气化过程中5种常见气态污染物为分析对象，列举常用的化学分析法和仪器分析法，为加压气化装置采样系统的设计提供参考材料和建议，归纳了一些有助于提高气态污染物检测数据可靠性的措施，希望能为煤气化过程中（特别是加压煤气化过程中）气态污染物采样系统的设计提供思路和借鉴。     

南充市大气PM10与PM2.5排放清单及特征

以四川省南充市为研究区域,通过实地调研、现场测试及结合统计年鉴等获得数据,采用排放因子法计算南充市2014年大气PM_(10)、PM_(2.5)排放量并建立排放清单。结果表明,南充市2014年扬尘源、移动源、生物质燃烧源、化石燃料固定燃烧源、工艺过程源排放总量PM_(10)分别为85 187、1 777、9 175、2 417、3 519 t,PM_(2.5)分别为16 093、1 619、7 322、914、1 585 t,PM_(10)贡献率分别为83.5%、1.7%、9.0%、2.4%、3.4%,PM_(2.5)贡献率分别为58.4%、5.9%、26.6%、3.3%、5.8%。城市区域扬尘源、生物质燃烧源、移动源、化石燃料固定燃烧源、工艺过程源对PM_(10)贡献分别为60.0%、12.5%、6.3%、8.6%、12.5%,对PM_(2.5)贡献分别为41.8%、21.6%、14.4%、8.1%、14.1%。南充市2014年大气PM_(10)、PM_(2.5)排放源总量和贡献率以及区域空间分布特征均存在差异。     

煤气化过程中气态污染物采样分析的研究进展（续）

通过考察气态污染物采样方法的基本原理，对比分析国内外常压采样系统和加压采样系统的设计特征，选择煤气化过程中5种常见气态污染物为分析对象，列举常用的化学分析法和仪器分析法，为加压气化装置采样系统的设计提供参考材料和建议，归纳了一些有助于提高气态污染物检测数据可靠性的措施，希望能为煤气化过程中（特别是加压煤气化过程中）气态污染物采样系统的设计提供思路和借鉴。     

2015年10月南宁市区典型大气污染过程成因分析

2015年10月15日—24日南宁市出现了一次典型的大气细颗粒物（PM2.5）污染过程，利用单颗粒气溶胶质谱仪和大气颗粒物激光雷达仪器进行监测，结合气象、后向轨迹及卫星遥感影像等资料分析大气污染成因及远距离传输对该次污染过程的影响。研究表明：此次南宁市大气污染以PM2.5超标为主，PM2.5日均质量浓度最高为85.2 μg/m3，超过标准值13.6%，其中PM1占PM2.5的66.3%。此次污染过程是由本地污染源与外来源影响互相叠加，在静稳、高温、强光等天气情况下发生协同作用引起的，污染物主要来源为燃煤源、机动车尾气源和生物质燃烧源，占全部来源的75.0%～80.0%。     

Renewable energy from gasification of manure: an innovative technology in search of fertile policy

After describing an innovative technology, the close-coupled gasification and cyclonic combustor, this article explores the policy issues that inhibit a superior sustainable solution fromflourishing. Discussion of technology includes defining biomass,explaining what biomass to energy means, what the advantages of biomass to energy are, and why gasification is a superior biomassto energy technology. Specifically the environmental benefits ofalternatives to landspreading of traditional manure management arediscussed, as well as the advantages of gasification versus traditional combustion techniques for high nitrogen fuels. The policy environment is explored, particularly regarding sustainability, manure management, and renewable energy. Artificial, non-sustainable barriers to renewable energy, and the impact of wide jurisdictional variability are discussed. North Carolina is identified as a unique jurisdiction to monitor because of its high volume of livestock manure, and laggard position in renewable energy advocacy. The authors contend that these two positions are unsustainable, and that pressures can beexpected to force the state to modify its renewable energy policies or risk losing market share in livestock production tomore pro-sustainable policy oriented states.     

Comparative environmental impact and efficiency assessment of selected hydrogen production methods

The environmental impacts of various hydrogen production processes are evaluated and compared, considering several energy sources and using life cycle analysis. The results indicate that hydrogen produced by thermochemical water decomposition cycles are more environmentally benign options compared to conventional steam reforming of natural gas. The nuclear based four-step Cu–Cl cycle has the lowest global warming potential (0.559 kg CO₂-eq per kg hydrogen production), mainly because it requires the lowest quantity of energy of the considered processes. The acidification potential results show that biomass gasification has the highest impact on environment, while wind based electrolysis has the lowest. The relation is also investigated between efficiency and environmental impacts.     

Ambient Air Quality at the Site of a Former Manufactured Gas Plant

Prior to the 1950's, manufactured gas was commerciallyproduced from the pyrolysis of coal, coke, and oil atfacilities that are termed manufactured gas plants (MGPs). The constituents of residual coal tar present on many MGPsites are an environmental health concern because of theirtoxicity and the possibility for their off-site migration viawater and air. Atmospheric concentrations of five volatileorganic compounds (VOCs, e.g., benzene), sixteen polycyclicaromatic hydrocarbons (PAHs, e.g., naphthalene), and particulate matter less than 10 microns in aerodynamicdiameter (PM₁₀) were measured at the site of a former MGP. Air samples were obtained before, during, and after excavationof subterranean coal tar at the site. The results of thisinvestigation indicate that subterranean coal tar was not aprimary source of VOCs and PAHs in the local atmosphere beforeor after remediation of the site. However, excavation,treatment, blending, and transfer of the coal tar duringremediation generated concentrations of selected aromatic andsemi-volatile organic compounds that were substantiallygreater than typical ambient levels. In addition, these datasuggest that blending and mixing of coal tars could lead toexceedance of the U.S. National Ambient Air Quality Standardfor PM₁₀, although additional research is required to fullyevaluate this possibility. Nuisance odors associated with thesite remediation were likely the result of naphthalene andpossibly isomers of xylene. Air pollutant concentrationsmeasured adjacent to the excavation area and at the siteperimeter during remediation activities were less than therelevant occupational and environmental exposure limits.     

Study of the potential of barnyard grass for the remediation of Cd- and Pb-contaminated soil

In this study, the microwave digestion method was used to determine total cadmium (Cd) and lead (Pb) concentrations, the BCR method was used to determine different states of Cd and Pb, and atomic absorption spectroscopy (AAS) and inductively coupled plasma optical emission spectrometry (ICP-OES) were used to determine Cd and Pb concentrations in simulated soil and barnyard grass before and after planting barnyard grass to provide a theoretical basis for the remediation of Cd- and Pb-contaminated soil. The results showed that the bioconcentration factor changes with different Cd concentrations are relatively complex and that the removal rate increases regularly. The 100 mg kg^?1 Cd treatment had the highest removal rate, which reached 36.66%. For Pb, the bioconcentration factor decreased and tended to reach equilibrium as the Pb concentration increased. The highest removal rate was 41.72% and occurred in the 500 mg kg^?1 Pb treatment; however, this removal rate was generally lower than that of Cd. In addition, the reduction state had the highest change rate, followed by the residual, acid soluble and oxidation states. For Pb, the residual state has the highest change rate, followed by the acid soluble state, reduction state and oxidation state. In addition, a significant correlation was observed between the soil Pb and Cd concentrations and the concentrations of Pb and Cd that accumulated in the belowground biomass of the barnyard grass, but no significant correlation was observed between the soil Pb and Cd concentrations and the amounts of Pb and Cd that accumulated in the aboveground biomass of the barnyard grass. The highest transfer factor of Cd was 0.49, which occurred in the 5 mg kg^?1 Cd treatment. The higher transfer factor of Pb was 0.48 in the 100 mg kg^?1 Pb treatment. All of these factors indicate that the belowground biomass of barnyard grass plays a more important role in the remediation of Cd- and Pb-contaminated soils than the aboveground biomass of barnyard grass. Remediation should occur through phytostabilization. Thus, with its strong adaptability and lush growth, barnyard grass can be applied as a pioneer species for the phytoremediation of Cd- and Pb-contaminated soils.     

热解焚烧技术处置医疗废物的影响因素与工况控制研究

针对热解焚烧技术处置医疗废物的特点,分析处置工艺运行参数对稳定工况的影响规律,确定医疗废物在热解焚烧技术炉内稳定焚烧的工艺参数,指出送风量与气化炉、燃烧炉的温度关系是焚烧系统控制的关键。通过对某型焚烧炉的测试,得到了送风量与气化炉和燃烧炉的温度关系曲线。测试结果表明,实时动态调控气化炉和燃烧炉的送风量,能够实现医疗废物的稳定焚烧。     

Impact of degradation on nitrogen transformation in a forest ecosystem of India

A study was performed selecting one protected forest and an adjacent degraded forest ecosystem to quantify the impact of forest degradation on soil inorganic nitrogen, fine root production, nitrification, N-mineralization and microbial biomass N. There were marked seasonal variations of all the parameters in the upper 0–10 and lower 10–20 cm depths. The seasonal trend of net nitrification and net N-mineralization was reverse of that for inorganic nitrogen and microbial biomass N. Net nitrification, net N-mineralization and fine root biomass values were highest in both forests during rainy season. On contrary, inorganic nitrogen and microbial biomass N were highest during summer season. There was a marked impact of forest degradation on inorganic nitrogen, fine root production nitrification, N-mineralization and microbial biomass observed. Soil properties also varied with soil depth. Fine root biomass, nitrification, N-mineralization and microbial biomass N decreased significantly in higher soil depth. Degradation causes decline in mean seasonal fine root biomass in upper layer and in lower depth by 37% and 27%, respectively. The mean seasonal net nitrification and N-mineralization in upper depth decreased by 42% and 37%, respectively and in lower depth by 42.21% and 39% respectively. Similarly microbial biomass N also decreased by 31.16% in upper layer 33.19% in lower layer.