蒸汽注入-电阻耦合加热过程影响因素及热脱附效果探究

针对单一热脱附技术的应用局限性,构建蒸汽注入-电阻加热（SEE-ERH）耦合热脱附三维试验系统,研究耦合热脱附技术的影响因素及处理效果。温度场分布试验结果表明,含水率、电压强度、蒸汽注入速率和抽提速率均可影响加热效果;并且,在一定范围内,前3个因素与升温效果呈正相关关系。采用COMSOL软件建立的模型能较好地模拟三维试验系统的加热过程。污染脱附试验结果表明,在ERH的基础上增加SEE可促进污染组分的解吸,并加快污染物去除速率;在20%含水率、80 V电压、1.00 L/min蒸汽注入速率和1.2 L/min抽提速率的条件下,SEE-ERH的加热效率较好,对菲的去除率可达到99.0%。

     

转型期南京市制造业郊区化及区位选择

城市郊区化是城市发展的重要阶段,我国城市郊区化有着深层的制度和经济背景。以南京为例,重点研究了制造业郊区化问题。首先分析了南京制造业企业空间聚散格局及郊区化程度,而后建立一个在我国经济和制度转型背景下制造业郊区化的理论框架,就政府行为和企业行为转型对制造业郊区化影响进行了分析,并导出相关要素,采用计量模型对要素检验进行,对其作用方向和强度进行分析。研究发现,南京制造业已进入明显的郊区化进程,城市近郊区的一些重点街镇和中心区外缘的少部分街道是制造业郊区化集聚的主要方向。并认为20世纪90年代开始实施的“退二进三”城市产业结构调整、土地有偿使用、郊区对外交通条件的改善、开发区和工业园区的建设是制造业郊区化的重要影响因素。     

System dynamics modelling of hybrid renewable energy systems and combined heating and power generator

The role of energy in the present world is critical in terms of both economical development and environmental impact. Renewable energy sources are considered essential in addressing these challenges. As a result, a growing number of organisations have been adopting hybrid renewable energy system (HRES) to reduce their environmental impact and sometimes take advantage of various incentives. When a HRES is being planned, the ability to model a HRES can provide an organisation with numerous benefits including the capability of optimising sub-systems, predicting performances and carrying out sensitivity analysis. In this paper, we present a comprehensive system dynamics model of HRES and combined heating and power (CHP) generator. Data from a manufacturing company using HRES and CHP generator are used to validate the model and discuss important findings. The results illustrate that the components of a HRES can have conflicting effects on cost and environmental benefits; thus, there is a need for an organisation to make trade-off decisions. The model can be a platform to further simulate and study the composition and operating strategies of organisations that are venturing to adopt new or additional HRESs.     

Mitigation of CO2 Emissions from the EU-15 Building Stock. Beyond the EU Directive on the Energy Performance of Buildings (9 pp)

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Goal Scope and Background. The European Directive on Energy Performance of Buildings which came into force 16 December 2002 will be implemented in the legislation of Member States by 4 January 2006. In addition to the aim of improving the overall energy efficiency of new buildings, large existing buildings will become a target for improvement, as soon as they undergo significant renovation. The building sector is responsible for about 40% of Europe's total end energy consumption and hence this Directive is an important step for the European Union in order that it should reach the level of saving required by the Kyoto Agreement. In this the EU is committed to reduce CO2 emissions relative to the base year of 1990 by 8 per cent, by 2010. But what will be the impact of the new Directive, how large could be the impacts of extending the obligation for energy efficiency retrofitting towards smaller buildings? Can improvement of the insulation offset or reduce the growing energy consumption from the increasing installation of cooling installations? EURIMA, the European Insulation Manufacturers Association and EuroACE, the European Alliance of Companies for Energy Efficiency in Buildings, asked Ecofys to address these questions.

Methods

The effect of the EPB Directive on the emissions associated with the heating energy consumption of the total EU 15 building stock has been examined in a model calculation, using the Built Environment Analysis Model (BEAM), which was developed by Ecofys to investigate energy saving measures in the building stock. The great complexity of the EU-15 building stock had to be simplified by examining five standard buildings with eight insulation standards, which are assigned to building age and renovation status. Furthermore, three climatic regions (cold, moderate, warm) were distinguished for the calculation of the heating energy demand. This gave a basic 210 building types for which the heating energy demand and CO2 emissions from heating were calculated according to the principles of the European Norm EN 832.

Results and Discussion

The model calculations demonstrates that the main contributor to the total heating related CO2 emissions of 725 Mt/a from the EU building stock in 2002 is the residential sector (77%) while the remaining 23% originates from non-residential buildings. In the residential sector, single-family houses represent the largest group responsible for 60% of the total CO2 emissions equivalent to 435 Mt/a.

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- The technical potential: If all retrofit measures in the scope of the Directive were realised immediately for the complete residential and non-residential building stock the overall CO2 emission savings would add up to 82 Mt/a. An additional saving potential compared to the Directive of 69 Mt/a would be created if the scope of the Directive was extended to cover retrofit measures in multi-family dwellings (200-1000m2) and non-residential buildings smaller than 1000m2 used floor space. In addition including the large group of single-family dwellings would lead to a potential for additional CO2 emission reductions compared to the Directive of 316 Mt/a.

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- Temporal mobilization of the potential: Calculations based on the building stock as it develops over time with average retrofit rates demonstrated that regulations introduced following the EPB Directive result in a CO2 emissions decrease of 34 Mt/a by the year 2010 compared to the business as usual scenario. Extending the scope of the EPB Directive to all residential buildings (including single and multi-family dwellings), the CO2 emission savings potential over the 'business as usual' scenario could be doubled to 69 Mt/a in the year 2010. This creates an additional saving potential compared to the Directive of 36 Mt/a.

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- Cooling demand: The analysis demonstrated that in warm climatic zones the cooling demand can be reduced drastically by a combination of lowering the internal heat loads and by improved insulation. With the reduction of the heat loads to a moderate level the cooling demand, e.g. of a terraced house located in Madrid, can be reduced by an additional 85% if the insulation level is improved appropriately.

Conclusions

This study demonstrates that the European Directive on Energy Performance of Buildings will have a significant impact on the CO2 emissions of the European building stock. The main saving potential lies in insulation of the existing building stock. Beyond this, CO2 emissions could, however, be greatly reduced if the scope of the Directive were to be extended to include retrofit of smaller buildings.

Recommendation and Perspective

The reductions should be seen in relation to the remaining gap of 190 Mt CO2 eq. per annum between the current emission levels of EU-15 and the target under the Kyoto-Protocol for the year 2010. The energy and industrial sector will probably contribute only a fraction of this reduction via the newly established EU emissions trading scheme and connected projects under the flexible mechanism. In addition, the traffic sector is likely to continue its growth path leading to a widening of the gap. Thus, there is likely to be considerable pressure on the EU building sector to contribute to the EU climate targets beyond what will be achieved by means of the current EPB Directive. Legislators on the EU and national level are therefore advised to take accelerated actions to tap the very significant emission reduction potentials available in the EU building stock.     

污泥压滤脱水条件的优化研究

采用压滤试验,研究了强压条件下剩余污泥的脱水性能及影响因素,确定了污泥压滤脱水的最佳操作条件。结果表明,随着压力的增加、压滤时间的延长和絮凝剂聚丙烯酰胺(PAM)投加量的增加,所得净滤液量均明显增大。综合考虑脱水效果和经济因素,最佳压滤脱水的条件为:压力0.6MPa,压滤时间30min,聚丙烯酰胺的投加量2.5kg/t干泥。     

转锥式生物质热解装置中热载体加热方案选择与设计

根据转锥式生物质热解装置中对加热设备的要求,先后分别选择和设计了三种不同的加热方案,在实际应用中逐步了解每套加热设备的优缺点,为加热设备的改进和该项技术的应用推广奠定坚实的基础.     

高抽巷层位对采空区自燃危险性影响的数值模拟分析

针对高抽巷抽采瓦斯可能诱发的采空区自燃问题,以大佛寺煤矿40108工作面构建采空区气体渗流模型,分析了不同垂距和平距下高抽巷抽采瓦斯时对采空区自燃危险性的影响。结果表明:高抽巷与煤层顶板的垂距越大,氧化升温带的宽度越大,采空区自燃危险性越高。高抽巷距回风巷平距为30m时,氧化升温带的宽度最小,采空区自燃危险性最低。依据研究结论,结合高抽巷抽采瓦斯时的层位要求,分析得出大佛寺煤矿40108工作面高抽巷最佳位置为距煤层顶板垂距30m,距回风巷平距30m处。     

Evaluation of energy savings by using high efficiency motors in a thermal power station

This paper presents potential energy savings by installing high-efficiency motors instead of existing ones and their impact on greenhouse gases emissions reductions. This research study of the energy efficiency of electric motors has been performed in a typical thermal power plant. In the literature, the focus has been mainly on separate and away electric motors from operating facilities. The important advantage of this paper over other studies is that it uses the actual motors’ efficiency in the evaluation. The gains both in terms of electrical energy savings and in terms of financial economy by using high-efficiency motors have been discussed. As a result, the energy saving can be expected as 12.6% at the operating rate. This excellent result also reduces greenhouse gas emission by 1,423 tons every year. The analysis of the data provided an overview on energy losses often generated by the degradation and rewinding of electrical motors. This study represents very encouraging results that will help energy managers of industrial plants to become more involved in energy efficiency strategies.     

采空区遗煤自燃过程及其规律的数值模拟研究

基于非均质多孔介质中的连续性方程、多相气体渗流———扩散方程和综合传热方程,建立了工作面动态推进下的采空区自燃数值模型。结合实例,从理论上描绘了工作面开采过程中采空区的漏风流态、氧、CO、瓦斯和温度等分布状态及其动态过程。计算中考虑了瓦斯涌出对自燃的耦合作用;工作面动态推进对自燃的影响,以及沿边界冒落非压实性对漏风供氧、自燃高温区产生的影响。从理论上重点讨论了采空区自燃与各因素的定量化关系,得出自然发火期与煤氧化速度、工作面风量二者均呈显著的反比例关系;对于综放工作面采场漏风供氧系统,自然发火期主要取决于煤的耗氧能力,提高工作面风量仅能扩大自燃高温区的范围,增大自燃的发生几率;提高推进度能显著延长采空区自然发火期,呈指数变化。     

载乙醇活性炭在微波场中的升温行为研究

研究了载乙醇活性在微波场中的升温行为，主要包括水和乙醇在微波场中的升温情况，以及微波功率，活性炭量，氮气线速对活性炭升温行为的影响，结果表明，水与乙醇在微波场中能吸收微波能，从而使其温度升高，微波功率越大，活性炭升值越快，活性炭最高温度也更高，活性炭少于5g时温度上升速率随活性炭量的增加而加快，活性炭量多于5g时则相反，氮气线速增加，活性炭升温速率下降，活性炭最高温度降低。