共查询到19条相似文献,搜索用时 531 毫秒
1.
对《联合国气候变化框架公约》秘书处最新公布的温室气体排放数据进行统计分析,结果显示:相对于基准年(1990年),附件一国家温室气体排放总量整体呈下降趋势。其中,经济转型期国家温室气体排放总量总体上呈逐年下降趋势,非经济转型期国家的温室气体排放总量有逐年增长的趋势。美国和加拿大能源部门的温室气体排放量增长最为显著,相对于1990年,2005年其增幅分别为19.2%和28.6%;英国和德国能源部门温室气体减排量最为显著,其减幅分别为7.8%和17.4%。在2005年,有超过一半的附件一国家的实际排放量低于其目标排放量,履约进展状况良好。 相似文献
2.
附件一国家温室气体排放趋势及其履约进展 总被引:2,自引:0,他引:2
对《联合国气候变化框架公约》秘书处最新公布的温室气体排放数据进行统计分析,结果显示:相对于基准年(1990年),附件一国家温室气体排放总量整体呈下降趋势。其中,经济转型期国家温室气体排放总量总体上呈逐年下降趋势,非经济转型期国家的温室气体排放总量有逐年增长的趋势。美国和加拿大能源部门的温室气体排放量增长最为显著,相对于1990年,2005年其增幅分别为19.2%和28.6%;英国和德国能源部门温室气体减排量最为显著,其减幅分别为7.8%和17.4%。在2005年,有超过一半的附件一国家的实际排放量低于其目标排放量,履约进展状况良好。 相似文献
3.
何吉成 《气候变化研究进展》2011,7(4):281-287
基于中国民航部门逐年统计数据,计算了1960—2009年中国民航飞机的CO2逐年排放量,分析了中国民航飞机CO2排放强度及其变化特点。结果表明:中国民航飞机CO2总排放量由1960年的12.0万t增至2009年的4144万t;CO2排放强度呈明显的降低趋势,由1960年的2.9 kg/换算吨公里降至2009年的0.96 kg/换算吨公里,年均降低0.04 kg/换算吨公里。中国民航飞机的CO2排放量占整个交通运输仓储和邮政行业CO2排放量的比例较低,仅占6.6%,占全国化石燃料燃烧CO2排放量的比例也很小,平均只有0.25%。 相似文献
4.
甲烷(CH4)所引起的温室效应仅次于CO2,固体废弃物填埋处理所产生的CH4作为总的人为温室气体排放源的一部分,估算其排放量对于计算大气中整个温室气体增加所引起的气候效应具有重要的作用和意义。在以往研究的基础上,通过对典型城市生活垃圾的采样分析,确定了最近几年中国城市固体废弃物(MSW)中可降解有机碳(DOC)的含量,并根据IPCC计算CH4排放量的方法以及全国不同区域废弃物管理程度状况,估算得到CH4排放量在全国范围内从东部到西部逐渐减少,且在1994-2004年排放量逐年增加。 相似文献
5.
对<联合国气候变化框架公约>秘书处最新公布的温室气体排放数据进行统计分析,结果显示:相对于基准年(1990年),附件-国家温室气体排放总量整体呈下降趋势.其中,经济转型期国家温室气体排放总量总体上呈逐年下降趋势,非经济转型期国家的温室气体排放总量有逐年增长的趋势.美国和加拿大能源部门的温室气体排放量增长最为显著,相对于1990年,2005年其增幅分别为19.2%和28.6%;英国和德国能源部门温室气体减排量最为显著,其减幅分别为7.8%和17.4%.在2005年,有超过一半的附件-国家的实际排放量低于其目标排放量,履约进展状况良好. 相似文献
6.
世界各国CO2排放历史和现状 总被引:10,自引:0,他引:10
根据美国橡树岭国家实验室CO2信息分析中心资料,对代表性国家的CO2排放总量和人均排放量的历史演化过程进行分析,对这些国家的CO2历史累积排放总量和人均历史累积排放量进行了计算和比较。文中提出了温室气体人均历史累积排放概念,这个概念兼顾了公正和公平及其历史与现实责任,在未来的全球气候变化历史责任分担研究中应该受到进一步重视。 相似文献
7.
下面介绍主要工业国对限制温室气体排放达成的最新协议和计划."环境部长们对到2000年稳定CO _2的排放量达成一致协议"(Intl.Environ.Rptr.7卷,457~458页)欧共体部长们认为整个欧洲(除希腊、葡萄牙、西班牙等经济需急剧增长的国家外)的CO_2排放量应限制在1990年水平上.美国的目标是到2005年达到稳 相似文献
8.
中国二氧化碳排放源现状分析 总被引:23,自引:1,他引:22
通过对20世纪90年代中国几个主要温室气体研究项目中关于二氧化碳(CO2)排放源研究结果的综合分析,结合最新资料,对1990年的中国CO2排放源进行了收集和完善,对1994年中国CO2排放源重新做了计算.其中,工业生产过程的CO2排放,在以前的研究中仅仅计算了水泥一项,本研究中我们增加了石灰、钢铁、电解铝三项,力求使结果更接近实际情况.结果表明,1990年和1994年中国CO2矿物燃料燃烧和工业过程总排放分别为2218.9×106t(合605.1×106t碳)和2787.8×106t(合760.3×106t碳),分别占当年全球CO2总排放的10.2%和12.7%.能源和工业生产活动的CO2排放均有不同程度的增长.矿物燃料燃烧是中国CO2的最大排放源,占总排放的90%以上.对CO2排放源的不确定性分析表明,中国CO2排放存在大于10%的减排潜力. 相似文献
9.
利用全国垃圾填埋场的点源数据,基于实际调研和实验室分析建立中国不同区域、不同规模、不同填埋时间的排放因子矩阵,采用IPCC推荐的一级降解动力学(FOD)方法自下而上地核算了中国2107个垃圾填埋场在2007年的甲烷(CH4)排放量。针对不同区域和类型的填埋场,分别就城市垃圾组分、可降解有机碳、CH4修正因子、CH4氧化系数、填埋场CH4收集率等进行了深入研究。结果显示,中国2007年填埋场CH4排放量为118.61万t,与《中华人民共和国气候变化第二次国家信息通报》2005年填埋场排放量(220万t)差异较大,其主要原因是城市垃圾填埋场统计数据的差异,例如填埋场个数及垃圾填埋量。中国绝大部分填埋场CH4年排放量在700 t以下,超过1000 t的有279个,超过1万t的仅10个。江苏省的CH4排放量最高,达到9.87万t;西藏的排放量最小,仅为0.21万t。东部江苏、广东、浙江等省的整体排放量较高,西部地区西藏、宁夏、青海等地的排放水平较低。 相似文献
10.
上海城市二氧化碳排放空间特征 总被引:1,自引:0,他引:1
构建上海1 km CO2排放网格,分析市域(UB1)、市辖区(UB2)、建成区(UB3)和城区(UB4)4个城市范围的CO2排放特征。上海市域CO2排放空间格局是以中心城区为核心,排放水平向外递减,形成了3个梯度。空间自相关分析表明,排放在空间上存在显著的集聚效应,部分地区高强度的经济活动和能源活动对周边区域的排放有显著影响。UB4是上海城市的最佳表征,2007年UB4内CO2排放达到1.89亿t,人均排放12.04 t;UB4排放占UB1排放的75.40%,UB1人均排放比UB4人均排放高12%。上海城市化和工业化在空间上的高度重合,导致高排放源集聚于UB4内,形成UB4的高排放特征。个别网格的排放量已经占到区域或者城市总排放量的10%~20%;前10高和前100高排放网格,其累积排放总量分别占据了3个城市范围(UB1、UB3和UB4)总排放量的60%和80%以上。 相似文献
11.
Contributions of individual countries?? emissions to climate change and their uncertainty 总被引:1,自引:0,他引:1
Niklas H?hne Helcio Blum Jan Fuglestvedt Ragnhild Bieltvedt Skeie Atsushi Kurosawa Guoquan Hu Jason Lowe Laila Gohar Ben Matthews Ana Claudia Nioac de Salles Christian Ellermann 《Climatic change》2011,106(3):359-391
We have compiled historical greenhouse gas emissions and their uncertainties on country and sector level and assessed their contribution to cumulative emissions and to global average temperature increase in the past and for a the future emission scenario. We find that uncertainty in historical contribution estimates differs between countries due to different shares of greenhouse gases and time development of emissions. Although historical emissions in the distant past are very uncertain, their influence on countries?? or sectors?? contributions to temperature increase is relatively small in most cases, because these results are dominated by recent (high) emissions. For relative contributions to cumulative emissions and temperature rise, the uncertainty introduced by unknown historical emissions is larger than the uncertainty introduced by the use of different climate models. The choice of different parameters in the calculation of relative contributions is most relevant for countries that are different from the world average in greenhouse gas mix and timing of emissions. The choice of the indicator (cumulative GWP weighted emissions or temperature increase) is very important for a few countries (altering contributions up to a factor of 2) and could be considered small for most countries (in the order of 10%). The choice of the year, from which to start accounting for emissions (e.g. 1750 or 1990), is important for many countries, up to a factor of 2.2 and on average of around 1.3. Including or excluding land-use change and forestry or non-CO2 gases changes relative contributions dramatically for a third of the countries (by a factor of 5 to a factor of 90). Industrialised countries started to increase CO2 emissions from energy use much earlier. Developing countries?? emissions from land-use change and forestry as well as of CH4 and N2O were substantial before their emissions from energy use. 相似文献
12.
Long-term emissions scenarios have served as the primary basis for assessing future climate change and response strategies. Therefore, it is important to regularly reassess the relevance of emissions scenarios in light of changing global circumstances and compare them with long-term developments to determine if they are still plausible, considering the newest insights. Four scenario series, SA90, IS92, SRES, and RCP/SSP, were central in the scenario-based literature informing the five Assessment Reports of the Intergovernmental Panel on Climate Change (IPCC) and the sixth assessment cycle. Here we analyze the historical trends of carbon dioxide (CO2) emissions from fossil fuel combustion and industry and emissions drivers between 1960 and 2017. We then compare the emission scenario series with historical trends for the period 1990–2017/2018. The results show that historical trends are quite consistent with medium scenarios in each series. As a result, they can be regarded as valid inputs for past and future analyses of climate change and impacts. Global CO2 emissions 1960–2018 (and 1990–2018) comprised six (and three) overall subperiods of emissions growth significantly higher and lower than average. Historically, CO2 emissions (in absolute numbers and growth rate) are tightly coupled with primary energy and indirectly with GDP. Global emissions generally followed a medium-high pathway, captured by “middle-of-the-road” scenario narratives in the earlier series, and by combinations of “global-sustainability” and “middle-of-the-road” narratives in the most recent series (SRES and SSP-baselines). Historical non-OECD trends were best captured by “rapid-growth” and “regional-competition” scenarios, while OECD trends were close to regional-sustainability and global-sustainability scenarios. Areas where the emissions scenarios captured the historical trends less well, are renewable and nuclear primary energy supply. The fact that the actual historical development is consistent with rapid-growth narratives in the non-OECD regions might have important implications for future greenhouse gas emissions and associated climatic change. 相似文献
13.
Reducing GHG emissions and mitigating climate change would require significant investments in renewable energy technologies. Foreign direct investments (FDI) in renewable energy (RE) have increased over the last years, contributing to the diffusion of RE globally. In the field of climate policy, there are multiple policy instruments aimed at attracting investments in renewable energy. This article aims to map the FDI flows globally including source and destination countries. Furthermore, the article investigates which policy instruments attract more FDI in RE sectors such as solar, wind and biomass, based on an econometric analysis of 137 Organisation for Economic Co-operation and Development (OECD) and non-OECD countries. The results show that Feed in Tariffs (FIT) followed by Fiscal Measures (FM), such as tax incentives and Renewable Portfolio Standards (RPS), are the most significant policy instrument that attract FDI in the RE sector globally. Regarding carbon pricing instruments, based on our analysis, carbon tax proved to be correlated with high attraction of FDI in OECD countries, whereas Emissions Trading Schemes (ETS) proved to be correlated with high attraction of FDI mainly in non-OECD countries.
Key policy insights
Feed in Tariffs is the most significant policy instrument that attracts FDI in the Renewable Energy sector globally.
Fiscal Measures (FM), such as tax incentives, show a significant and positive impact on renewable energy projects by foreign investors, and particularly on solar energy.
Carbon pricing instruments, such as carbon taxation and emissions trading, proved to attract FDI in OECD and non-OECD countries respectively.
Public investments, such as government funds for renewable energy projects, proved not as attractive to foreign private investors, perhaps because public funds are not perceived as stable in the long run.
14.
This paper uses the OECD’s global recursive-dynamic general equilibrium model ENVLinkages to examine the mid-term economic consequences and the optimal energy supply mix adjustments of a simultaneous implementation of i) a progressive fossil fuel subsidy reform in emerging and developing economies and ii) a progressive phase out of nuclear energy, mostly affecting OECD countries, China and Russia. The analysis is then transposed in the context of climate change mitigation to depict the corresponding implications for CO2 emissions, to assess the interactions between the two energy policies, and to derive how the associated costs are affected by the different policies. The phase-out scenario projects a nuclear capacity halved by 2035 as compared to the Baseline, corresponding to $120 billion losses in value-added of the nuclear industry for that year. The nuclear phase-out leaves GDP and real household consumption marginally affected in energy importing countries. A multilateral subsidy reform is more likely to affect international fossil fuel prices and alter patterns of global energy use. The fossil fuel subsidy reform, when implemented together with nuclear phase-out, more than offsets negative consequences on household consumption but still leads to a decrease in global CO2 emissions. The combined policies help save the equivalent of current energy consumption in the Middle East. Combining a climate policy, an effective fossil fuel subsidy reform, even with a lower nuclear share in the power mix, brings about multiple benefits to OECD countries which reduce their energy bill and achieve large climate change mitigation at lower cost. 相似文献
15.
CHEN Zhao-Hui 《大气和海洋科学快报》2011,4(2):70-74
The seasonal cycle of atmospheric CO2 at surface observation stations in the northern hemisphere is driven primarily by net ecosystem production (NEP) fluxes from terrestrial ecosystems. In addition to NEP from terrestrial ecosystems, surface fluxes from fossil fuel combustion and ocean exchange also contribute to the seasonal cycle of atmospheric CO2. Here the authors use the Goddard Earth Observing System-Chemistry (GEOS-Chem) model (version 8-02-01), with modifications, to assess the impact of these fluxes on the seasonal cycle of atmospheric CO2 in 2005. Modifications include monthly fossil and ocean emission inventories. CO2 simulations with monthly varying and annual emission inventories were carried out separately. The sources and sinks of monthly averaged net surface flux are different from those of annual emission inventories for every month. Results indicate that changes in monthly averaged net surface flux have a greater impact on the average concentration of atmospheric CO2 in the northern hemisphere than on the average concentration for latitudes 30-90°S in July. The concentration values differ little between both emission inventories over the latitudinal range from the equator to 30°S in January and July. The accumulated impacts of the monthly averaged fossil and ocean emissions contribute to an increase of the total global monthly average of CO2 from May to December.An apparent discrepancy for global average CO2 concentration between model results and observation was because the observation stations were not sufficiently representative. More accurate values for monthly varying net surface flux will be necessary in future to run the CO2 simulation. 相似文献
16.
We present and apply a simple bottom–up model for estimating non-energy use of fossil fuels and resulting CO2 (carbon dioxide) emissions. We apply this model for the year 2000: (1) to the world as a whole, (2) to the aggregate of Annex I countries and non-Annex I countries, and (3) to the ten non-Annex I countries with the highest consumption of fossil fuels for non-energy purposes. We find that worldwide non-energy use is equivalent to 1,670 ± 120 Mt (megatonnes) CO2 and leads to 700 ± 90 Mt CO2 emissions. Around 75% of non-energy use emissions is related to industrial processes. The remainder is attributed to the emission source categories of solvent and other product use, agriculture, and waste. Annex I countries account for 51% (360 ± 50 Mt CO2) and non-Annex I countries for 49% (340 ± 70 Mt CO2) of worldwide non-energy use emissions. Among non-Annex I countries, China is by far the largest emitter of non-energy use emissions (122 ± 18 Mt CO2). Our research deepens the understanding of non-energy use and related CO2 emissions in countries for which detailed emission inventories do not yet exist. Despite existing model uncertainties, we recommend NEAT-SIMP to inventory experts for preparing correct and complete non-energy use emission estimates for any country in the world. 相似文献
17.
Over the last three decades, socio-economic, demographic and technological transitions have been witnessed throughout the world, modifying both sectorial and geographical distributions of greenhouse gas (GHG) emissions. Understanding these trends is central to the design of current and future climate change mitigation policies, requiring up-to-date methodologically robust emission inventories such as the Emissions Database for Global Atmospheric Research (EDGAR), the European Commission’s in-house, independent global emission inventory. EDGAR is a key tool to track the evolution of GHG emissions and contributes to quantifying the global carbon budget, providing independent and systematically calculated emissions for all countries.According to the results of the EDGAR v.5.0 release, total anthropogenic global greenhouse gas emissions (excluding land use, land use change and forestry) were estimated at 49.1 Gt CO2eq in 2015, 50 % higher than in 1990, despite a monotonic decrease in GHG emissions per unit of economic output. Between 1990 and 2015, emissions from developed countries fell by 9%, while emissions from low to medium income countries increased by 130%, predominantly from 2000 onwards. The 27 Member States of the European Union and the United Kingdom led the pathway for emission reductions in industrialised economies whilst, in developing countries, the rise in emissions was driven by higher emissions in China, India, Brazil and nations in the South-East Asian region. This diversity of patterns shows how different patterns for GHG emissions are and the need for identifying regionally tailored emission reduction measures. 相似文献
18.
《Climate Policy》2013,13(3):247-260
In order to stabilize long-term greenhouse gas concentrations at 450 ppm CO2-eq or lower, developed countries as a group should reduce emissions by 25–40% below 1990 levels by 2020, while developing countries' emissions need to be reduced by around 15–30%, relative to their baseline levels, according to the IPCC and our earlier work. This study examines 19 other studies on the emission reductions attributed to the developed and developing countries for meeting a 450 ppm target. These studies considered different allocation approaches, according to equity principles. The effect of the assumed global emissions cap in these studies is analysed. For developed countries, the original reduction range of 25–40% by 2020 is still within the average range of all studies, but does not cover it completely. Comparing the studies shows that assuming a global emissions cap of 5–15% above 1990 levels by 2020 generally leads to more stringent reduction targets than when a global emissions cap of 20–30% above 1990 levels is assumed. For developing countries, the reduction range of 15–30% below their baseline levels by 2020 corresponds to an increase on the 1990 level from 70% (about the 2006 level) to 120%. Reducing deforestation emissions by 50% below baseline levels by 2020 may relax the emission reductions for either group of countries; for developing countries by about 7% or for developed countries by about 15% (but not for both). 相似文献
19.
评述了中国全国及区域水平交通领域CO2排放研究的不足和困难,提出了道路运输、铁路运输燃油消费量的估算方法、参数及区域分配方法,并根据文献研究和公开资料进行校对,采用中国交通领域CO2排放因子,计算中国2007年全国和各省道路运输、铁路运输、航空运输和水路运输的CO2排放。中国2007年交通领域CO2排放量为4.36亿t,占2007年全国能源利用CO2排放的7%,低于2007年全球交通部门23%的排放比例。中国道路运输CO2排放占交通领域绝对主体,为86.32%。 相似文献