呼和浩特生态城市承载力分析及其建设策略研究

生态城市是新世纪人类理想的居住模式,本文在研究国内外生态城市理论与实践的基础上,对呼和浩特环境承载力、人口资源承载力、水资源承载力以及其他资源承载力进行了分析,针对呼和浩特城市发展现状,提出了呼和浩特市生态城市建设的新模式及建议和对策。     

云南省环保举报热线系统的设计与建设

叙述了云南省环保热线系统的总体设计,集成的先进技术,预期目标和建设情况等。     

自动监测系统建设应该注意的几个问题

水质自动监测系统由中心站和水质自动监测子站组成,在全国范围内已经得到了广泛的应用。当地环境监测部门有责任对自动监测系统的建设进行参与和监督。本文分别从水质自动监测系统基础建设前期、基础建设时期、系统建设时期、试运行等各个阶段指出了系统建设应注意的问题。     

建筑废弃物回收再利用项目运作模式刍探

建筑废弃物处理是城市建设中的一大难题,如果实行简单填埋,不仅污染环境、造成资源浪费,而且也耗费政府大量财力。介绍了深圳市龙岗区通过创新招标方式,公开出让特许经营权,引入企业运用先进技术对建筑废弃物实行综合再利用的一些做法,同时对城市建筑废弃物回收再利用如何实现规模化和产业化发展,以及政府在推动循环经济发展方面如何将经济效益与社会效益有机结合提出了一些看法。     

我国生态城市建设的关键和对策

介绍了生态城市的内涵、生态城市建设的关键——社会生态化。结合我国国情,提出了建设生态城市的关键内容和对策。     

锦州市环境信息化建设发展初探

近年来,锦州市环境信息化建设得到飞速发展,形成了基本满足环保业务需求的信息服务体系。但由于信息技术的不断推陈出新,锦州市环境信息化建设面临更高的发展要求。结合信息化技术的发展现状论述了锦州市环境信息化建设的发展方向,即通过信息整合使信息化建设上升到更高水平。     

宜万铁路某隧道溶腔段帷幕注浆施工技术

应用帷幕注浆施工方法处理宜万铁路某隧道溶腔,根据现场地质条件提出了具体的施工方案、工艺要点及施工方法,并对注浆参数、注浆工艺流程、注浆材料、注浆设备、注浆施工过程和注浆控制标准等     

Prospects for carbon-neutral housing: the influence of greater wood use on the carbon footprint of a single-family residence

This paper examines the energy and carbon balance of two residential house alternatives; a typical wood frame home using more conventional materials (brick cladding, vinyl windows, asphalt shingles, and fibreglass insulation) and a similar wood frame house that also maximizes wood use throughout (cedar shingles and siding, wood windows, and cellulose insulation) in place of the more typical materials used – a wood-intensive house. Carbon emission and fossil fuel consumption balances were established for the two homes based on the cumulative total of three subsystems: (1) forest harvesting and regeneration; (2) cradle-to-gate product manufacturing, construction, and replacement effects over a 100-year service life; and (3) end-of-life effects – landfilling with methane capture and combustion or recovery of biomass for energy production.The net carbon balance of the wood-intensive house showed a complete offset of the manufacturing emissions by the credit given to the system for forest re-growth. Including landfill methane emissions, the wood-intensive life cycle yielded 20 tons of CO₂e emissions compared to 72 tons for the typical house. The wood-intensive home's life cycle also consumed only 45% of the fossil fuels used in the typical house.Diverting wood materials from the landfill at the end of life improved the life cycle balances of both the typical and wood-intensive houses. The carbon balance of the wood-intensive house was 5.2 tons of CO₂e permanently removed from the atmosphere (a net carbon sink) as compared to 63.4 of total CO₂e emissions for the typical house. Substitution of wood fuel for natural gas and coal in electricity production led to a net energy balance of the wood-intensive house that was nearly neutral, 87.1 GJ energy use, 88% lower than the scenario in which the materials were landfilled.Allocating biomass generation and carbon sequestration in the forest on an economic basis as opposed to a mass basis significantly improves the life cycle balances of both houses. Employing an economic allocation method to the forest leads to 3–5 times greater carbon sequestration and fossil fuel substitution attributable to the house, which is doubled in forestry regimes that remove stumps and slash as fuel. Thus, wood use has the potential to create a significantly negative carbon footprint for a house up to the point of occupancy and even offset a portion of heating and cooling energy use and carbon emissions; the wood-intensive house is energy and carbon neutral for 34–68 years in Ottawa and has the potential to be a net carbon sink and energy producer in a more temperate climate like San Francisco.     

The method for leakage detection of urban natural gas pipeline based on the improved ITA and ALO

To solve the problems of the difficulty in early leakage monitoring and larger positioning error for urban hazardous chemicals pipelines, the optimized method based on the improved Inverse Transient Analysis (ITA) and Ant Lion Optimizer (ALO) was proposed. Firstly, based on the obtained experiment's results of leakage of natural gas in the non-metallic pipeline, the segment classification method was incorporated into the pressure gradient calculation. The modified method can adapt to the multi-node characteristics of urban pipe networks and help to obtain the preliminary positioning calculation results after optimization. Then the calculation results were embedded in the ITA calculation model. The input parameters of the gas pipeline such as boundary conditions, leakage rate and friction coefficient were used to establish the characteristic linear equations. Then the objective function of the least-squares criterion was defined, and the improved ITA model suitable for leakage detection of urban natural gas pipeline networks was constructed. Finally, the ALO was used to optimize the calculation process of the improved ITA model, and iteratively optimize the optimal friction coefficient and its corresponding minimum objective function (OF) value. As a result, a more precise location of the leakage source was calculated. The validation of the modified method is conducted by comparing the calculated values with the experiment's results. The results show that the method can accurately predict the location where the pipeline leakage occurs. The minimum error is 3.17%. Compared with the traditional ITA, this method not only accelerates the convergence speed of the objective function, but also improves the accuracy of location calculation.     

仓面浇筑立体空间冲突致灾过程建模与伤害评价*

为定量评价大坝浇筑过程空间冲突致灾事故后果,通过对缆机运输典型情景进行危害能量运动分解,确定在水平和竖直方向运动方式,阐述危害能量在流动路径相互转化形式;根据能量守恒定律,分析危害能量在吊罐与承灾体碰撞接触之间转移规律,将吊罐与人头部接触过程抽象为带强阻尼的弹簧振子系统,建立危害能量与碰撞冲量相等的动量方程,量化空间冲突致灾后果。结果表明:吊罐坠落危害能量极大,产生的碰撞冲击力与吊罐的运输速度、高度呈正相关,与阻力系数呈负相关,风速、载重对其影响较大。对比2种不同碰撞情景发现,机械碰撞因顶部承载力缓冲,对人头部产生伤害远小于直接碰撞,并对碰撞结果分级评价,研究结果可为大坝浇筑交叉作业空间冲突致灾风险评价提供参考。