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利用耦合单层城市冠层模型的中尺度数值模式WRF/UCM,选取8组不同反照率和绿化比例的屋顶冷却方案进行敏感性试验,模拟研究不同冷却屋顶方案对长三角城市群2013年夏季城市热环境的影响,并分析其影响机制。结果表明:不同冷却屋顶方案对城市群热环境的缓解效果与屋顶参数之间呈很强的线性关系。高温热浪天气下,HR4(反照率为1.0)和GR4(屋顶绿化率为100%)方案的制冷度日数分别降低了14.7%和10.9%,节约的能源比普通夏日更多。同时,高温热浪天气会增强热岛强度,高反照率屋顶方案在白天对热岛起到更有效的缓解,热浪天气下日平均热岛强度最大可降低1.36℃。相同方案下,在高温热浪天气下的缓解效果均胜于普通夏日,平均而言,高反照率屋顶和屋顶绿化的降温效果分别增大38.5%和34.9%,增湿效果分别增大29.5%和21.9%,这主要是由于在高温热浪天气下,高反照率屋顶方案能够减少更多的净辐射通量,屋顶绿化方案能够释放更多的潜热通量。此外,城市格点密集区域的降温效果优于分散的城市区域,处于城市群中的常州区域较单独的杭州区域的降温幅度平均高32%。 相似文献
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太阳能屋顶的安装预计能在一定程度上缓解城市化带来的能源危机及对城市热环境的破坏。利用耦合了城市单层冠层方案(UCM)的WRF模式,以南京2010年7月27日至8月5日夏季晴天微风天气为背景,模拟了不同发电效率的太阳能屋顶的安装对城市高温的缓解效应。结果表明:(1)太阳能屋顶可以通过削弱到达城市表面的太阳辐射使城市2 m高气温降低,随着发电效率的提高,降温效果更明显,且白天降温效果明显优于夜间;白天2 m高气温最大降低0.4-1.3℃,夜间降低0.2-0.5℃。(2)太阳能屋顶可使边界层内气温降低,白天在边界层400 m以下降温显著,夜间在边界层高度200 m以下降温显著;白天边界层内最大降温出现在中午前后,降温0.1-0.8℃,夜间边界层内最大降温0.5℃。(3)发电效率为40%时,模拟期间的发电量为18.1×109 kW·h。 相似文献
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太阳能光伏屋顶的安装在一定程度上能缓解城市化带来的能源危机和城市热环境的破坏。将太阳能板的传热模型引入WRF模式的多层城市冠层方案中,选取了2017年7月21—27日一次典型的高温热浪天气过程,在线模拟太阳能屋顶两种安装形式(贴覆式和支架式)对城市热环境及能量平衡的影响。结果表明:(1)贴覆式太阳能屋顶可使白天2 m气温最多降低0.29°C,降温效果优于支架式屋顶,但夜间温度下降较小。支架式屋顶白天最大降温0.23°C,夜间降温效果明显,与普通屋顶相比,温度最多降低了0.60°C。(2)太阳能屋顶白天确实可以起到降温效果,抑制白天边界层的发展高度,降低边界层的厚度。(3)太阳能屋顶除了对城市气象的影响外,最重要的是它对能源的贡献。从结果来看,太阳能电池板产生的电能可以满足商业区54.5%的空调消耗。 相似文献
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随着城市化的发展,城市中众多建筑物和混凝土铺装使城市下垫面性质发生改变,高密度的人口活动和高强度的经济活动使城市形成与城市周围不同的局部气候环境。热岛效应、低湿、多雾霾成为目前城市气候的主要问题,对居民的健康生活产生严重的影响。城市绿化是缓解城市问题的重要手段,以西安市为例,从降低城市热岛效应、降温增湿以及通风引风和降低雾霾几个方面,介绍分析城市绿地对于城市气候环境显著的改善作用。 相似文献
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为缓解南京夏季城市热环境危机,利用天气研究和预报模式(WRF),模拟了3类屋顶(普通屋顶、高反照率屋顶、随机玻璃-聚合物混合超材料屋顶)对南京夏季高温天气的影响。结果表明:(1)冷却屋顶(高反照率屋顶和随机玻璃-聚合物混合超材料屋顶)均可通过削弱到达城市表面的太阳辐射而使城市降温,随机玻璃-聚合物混合超材料屋顶白天平均降温为0.8~1.2℃,夜间平均降温为0.2~0.4℃,高反照率屋顶白天平均降温为0.6~0.8℃,夜间平均降温为0.2℃;(2)表面温度指数可表征冷却屋顶的热力性能,随机玻璃-聚合物混合超材料屋顶的表面温度指数为0.16~0.43,高反照率屋顶的表面温度指数为0.05~0.26,表明随机玻璃-聚合物混合超材料屋顶的冷却效果强于高反照率屋顶;(3)高反照率屋顶和随机玻璃-聚合物混合超材料屋顶分别能将36.7%和47.1%的太阳短波辐射返回到大气层,分别比普通屋顶少吸收19.6%和34.8%的热量。 相似文献
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本文通过分析嘉峪关不同下垫面的温度、湿度、风速等要素在不同季节细微差异,分析归纳了以戈壁,湿地,城市工业,园林绿地为代表的下垫面对小气候的影响贡献;并且以人体舒适度为指标,探讨分析园林绿地对宜居城市建设的贡献。结果表明:4种下垫面的气象要素在春季、夏季有显著或极显著差异,而秋季、冬季差异不显著;园林绿化区具有很好的降温、保湿、风屏等效应,对城市生态影响显著;四个区域平均舒适度,呈现湿地保护区>园林绿化区>城市热岛区>戈壁荒漠区的形势,园林绿化区舒适程度在5-9月明显大于其他下垫面;园林绿化区的降温、增湿效应能够有效缓解城市热岛,对改善城市热环境有着重要的作用和意义。 相似文献
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重点介绍了国内外对城市热岛的研究现状和研究成果.简单介绍了绿化对改善城市热环境的研究成果,目前城市气象服务中的气象指标以及城市灾害性天气监测中存在的不足.总结了城市气候研究的热点为城市热环境和大气气溶胶,指出了利用数值模拟研究气溶胶气候效应是今后发展的趋势. 相似文献
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利用自动气象站风、温、湿观测资料,对北京城市集中绿地缓解夏季高温(最高气温≥35 ℃)的效果进行了初步研究.研究结果表明:1)所研究的集中绿地都具有缩短高温持续时间的作用,但对最高气温的调节存在很大差异,有些集中绿地对最高气温几乎没有缓解作用,甚至有增温的可能.因此为发挥集中绿地缓解高温的效果,应尽可能提高绿地的通风条件.2)对北京城来说,集中绿地面积≥20 hm2时,降温效果比较显著.3)在高温天气情况下,集中绿地对高温的缓解作用对人体舒适度的改善,可能会由于集中绿地相对湿度较高而被抵消. 相似文献
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A bibliometric analysis based on the Science Citation Index-Expanded (SCI-Expanded) database from the Web of Science was performed to review urban heat island (UHI) research from 1991 to 2015 and statistically assess its developments, trends, and directions. In total, 1822 papers published in 352 journals over the past 25 years were analyzed for scientific output; citations; subject categories; major journals; outstanding keywords; and leading countries, institutions, authors, and research collaborations. The number of UHI-related publications has continuously increased since 1991. Meteorology atmospheric sciences, environmental sciences, and construction building technology were the three most frequent subject categories. Building and Environment, International Journal of Climatology, and Theoretical and Applied Climatology were the three most popular publishing journals. The USA and China were the two leading countries in UHI research, contributing 49.56% of the total articles. Chinese Academy of Science, Arizona State University, and China Meteorological Administration published the most UHI articles. Weng QH and Santamouris M were the two most prolific authors. Author keywords were classified into four major groups: (1) research methods and indicators, e.g., remote sensing, field measurement, and models; (2) generation factors, e.g., impervious urban surfaces, urban geometry, waste heat, vegetation, and pollutants; (3) environmental effects, e.g., urban climate, heat wave, ecology, and pollution; and (4) mitigation and adaption strategies, e.g., roof technology cooling, reflective cooling, vegetation cooling, and urban geometry cooling. A comparative analysis of popular issues revealed that UHI determination (intensity, heat source, supporting techniques) remains the central topic, whereas UHI impacts and mitigation strategies are becoming the popular issues that will receive increasing scientific attention in the future. Modeling will continue to be the leading research method, and remote sensing will be used more widely. Additionally, a combination of remote sensing and field measurements with models is expected. 相似文献
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Chunlei Meng 《Asia-Pacific Journal of Atmospheric Sciences》2017,53(3):327-338
In a surface urban heat island (SUHI), the urban land surface temperature (LST) is usually higher than the temperature of the surrounding rural areas due to human activities and surface characteristics. Because a SUHI has many adverse impacts on urban environment and human health, SUHI mitigation strategies are very important. This paper investigates the mechanism of a SUHI based on the basic physical laws that control the formation of a SUHI; five mitigation strategies are proposed, namely: sprinkling and watering; paving a pervious surface; reducing the anthropogenic heat (AH) release; using a “white roof”; increasing the fractional vegetation cover or leaf area index (LAI). To quantify the effect of these mitigation strategies, 26 sets of experiments are designed and implemented by running the integrated urban land model (IUM). The results of the sensitivity analysis indicate that sprinkling and watering is an effective measure for mitigating a SUHI for an entire day. Decreasing the AH release is also useful for both night- and daytime SUHI mitigation; however, the cooling extent is proportional to the diurnal cycle of AH. Increasing the albedo can reduce the LST in the daytime, especially when the solar radiation is significant; the cooling extent is approximately proportional to the diurnal cycle of the net radiation. Increasing the pervious surface percentage can mitigate the SUHI especially in the daytime. Increasing the fractional vegetation cover can mitigate the SUHI in the daytime but may aggravate the SUHI at night. 相似文献
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两种类型冷却屋顶(高反照率屋顶、绿色屋顶)的研究对于北京夏季城市高温的缓解作用具有重要的意义。耦合单层城市冠层模式(SLUCM)与天气研究与预报(WRF3.8)模式, 采用北京市及其外围地区158个站点气象资料评估模式对照案例(case1)的模拟性能, 并选取7组不同反照率屋顶案例(case2—4)和不同覆盖比例的绿色屋顶案例(case5—8)进行敏感性试验。研究结果表明:(1)在北京城市区域, 高反照率为0.85的屋顶(case4)比绿色占比100%的屋顶(case8)具有更好的降温效果, case4的3 d平均降温可达到0.90℃, 而case8降温为0.46℃。(2)屋顶反照率每增加0.1, 会导致北京城市区域最高气温降低0.27℃; 绿色屋顶比例的增大也会导致温度的降低, 每增加10%, 最高气温降低0.16℃。(3)两种冷却屋顶对城市热岛也存在显著的影响, 在13—14时(北京时), case4与case1对比的城市热岛(UHI)降温最大差值为1.47℃, 比case8的城市热岛降温更加明显。(4)在城市区域垂直高度上, 冷却屋顶的降温作用可达到1.2 km, 同时湍流运动存在明显的减弱; 在3 d的12—18时, case4、case8与case1对比, 边界层高度平均降低了669与430 m。 相似文献
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H. Swaid 《Theoretical and Applied Climatology》1992,46(2-3):179-191
Summary Adaptive geometrical configurations are presented, which aim to create intelligent urban forms, and which include screening methods applicable to the linear- and grid-type building layouts. They are especially suitable for mid-latitude cities characterized by seasonally swinging climates which necessitate heating in winter and cooling in summer. The screens are envisaged as shading devices in the summer blocking the incoming solar radiation during day-time (that is, on-position), while being removed at night to enhance nocturnal radiative cooling (that is, off-position). In winter they are assumed to be in off-position during sunshine hours to promote the access of solar radiation and in on-position at night to obstruct the sky energy sink and reduce radiant heat losses. Their implications for the urban street canyon climate and the thermal performance of the built environment are simulated using the cluster thermal time constant (CTTC) model. The diurnal variation of both the ambient air temperature and net radiant flux within the urban canopy layer serve as criteria by which the climatetempering effectiveness of the screens is assessed.With 9 Figures 相似文献
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城市热岛效应研究概况 总被引:5,自引:1,他引:4
随着我国城市化进程的不断加快,城市中的环境污染问题也日益严重,表现为城市比周围非城市化地区的地表和大气温度要高的热岛效应作为这些环境问题中的典型代表有着重要的研究意义。近几十年来国内外的有关专家从微观及宏观层面上对城市热岛效应的产生原因、造成影响、变化规律、缓解措施等方面进行了一系列的研究与探索。由于城市测点有限,过去的研究尚不能全面反映出研究区热岛效应。遥感科学和技术的发展,为城市热岛效应的研究提供了有利条件。本文介绍了热红外遥感技术在热岛研究中的应用及城市规划对城市热岛效应的影响,并展望了该领域的发展前景。 相似文献
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城市热岛效应研究概况 总被引:3,自引:0,他引:3
随着我国城市化进程的不断加快,城市中的环境污染问题也日益严重,表现为城市比周围非城市化地区的地表和大气温度要高的热岛效应作为这些环境问题中的典型代表有着重要的研究意义。近几十年来国内外的有关专家从微观及宏观层面上对城市热岛效应的产生原因、造成影响、变化规律、缓解措施等方面进行了一系列的研究与探索。由于城市测点有限,过去的研究尚不能全面反映出研究区热岛效应。遥感科学和技术的发展,为城市热岛效应的研究提供了有利条件。本文介绍了热红外遥感技术在热岛研究中的应用及城市规划对城市热岛效应的影响,并展望了该领域的发展前景。 相似文献
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The study examines the potential of urban roofs to reduce the urban heat island (UHI) effect by changing their reflectivity and implementing vegetation (green roofs) using the example of the City of Vienna. The urban modelling simulations are performed based on high-resolution orography and land use data, climatological observations, surface albedo values from satellite imagery and registry of the green roof potential in Vienna. The modelling results show that a moderate increase in reflectivity of roofs (up to 0.45) reduces the mean summer temperatures in the densely built-up environment by approximately 0.25 °C. Applying high reflectivity materials (roof albedo up to 0.7) leads to average cooling in densely built-up area of approximately 0.5 °C. The green roofs yield a heat load reduction in similar order of magnitude as the high reflectivity materials. However, only 45 % of roof area in Vienna is suitable for greening and the green roof potential mostly applies to industrial areas in city outskirts and is therefore not sufficient for substantial reduction of the UHI effect, particularly in the city centre which has the highest heat load. The strongest cooling effect can be achieved by combining the green roofs with high reflectivity materials. In this case, using 50 or 100 % of the green roof potential and applying high reflectivity materials on the remaining surfaces have a similar cooling effect. 相似文献
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Philip J. Wallis Michael B. Ward Jamie Pittock Karen Hussey Howard Bamsey Amandine Denis Steven J. Kenway Carey W. King Shahbaz Mushtaq Monique L. Retamal Brian R. Spies 《Climatic change》2014,125(2):209-220
A variety of proposed activities to mitigate greenhouse gas emissions will impact on scarce water resources, which are coming under increasing pressure in many countries due to population growth and shifting weather patterns. However, the integrated analysis of water and carbon impacts has been given limited attention in greenhouse mitigation planning. In this Australian case study, we analyse a suite of 74 mitigation measures ranked as highest priority by one influential analysis, and we find that they have highly variable consequences for water quantity. We find: (1) The largest impacts result from land-based sequestration, which has the potential to intercept large quantities of water and reduce catchment yields, estimated to exceed 100 Mm3/MtCO2-e of carbon mitigated (100,000 l per tonne CO2-e). (2) Moderate impacts result from some renewable power options, including solar thermal power with a water cost estimated at nearly 4 Mm3/MtCO2-e. However, the water impacts of solar thermal power facilities could be reduced by designing them to use existing power-related water supplies or to use air or salt-water cooling. (3) Wind power, biogas, solar photovoltaics, energy efficiency and operational improvements to existing power sources can reduce water demand through offsetting the water used to cool thermal power generation, with minor savings estimated at 2 Mm3/MtCO2-e and amounting to nearly 100 Mm3 of water saved in Australia per annum in 2020. This integrated analysis significantly changes the attractiveness of some mitigation options, compared to the case where water impacts are not considered. 相似文献
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Oliver Heidrich Richard J. Dawson Diana Reckien Claire L. Walsh 《Climatic change》2013,120(4):771-784
Cities are increasingly aware of the need to mitigate greenhouse gas emissions and adapt to changes in weather patterns leading to the production of urban climate change plans. The few existing systematic studies of these plans have focused on either adaptation or mitigation issues, and are typically based on surveys completed by city officials rather than analysis of documented evidence. To gain insight into the status of adaptation and mitigation action across the UK, climate change documents from 30 urban areas (representing ~28 % of the UK’s population) were analysed. An Urban Climate Change Preparedness Score, which could be applied to other urban areas outside the UK, has been devised for comparative analysis. This analysis characterizes progress against (i) Assessment, (ii) Planning, (iii) Action, and (iv) Monitoring, for both adaptation and mitigation. The Preparedness Score allows a quantitative comparison of climate change strategies across the urban areas analysed. This methodology can be transferred to other countries and makes an international comparison of urban areas and their climate change adaptation and mitigation plans possible. We found that all areas acknowledge climate change being a threat and that adaptation and mitigation planning and action is required. However, two urban areas did not have official adaptation or mitigation plans. Typically, mitigation activities across all cities were more advanced than adaptation plans. Emissions reduction targets ranged from 10 %–80 % with differing baselines, timeframes and scopes, for defining and meeting these targets. Similar variability was observed across adaptation plans. Several reasons for these differences are considered, but particularly notable is that a combination of incentives and regulation seem to stimulate more comprehensive strategies and action in many urban areas. 相似文献