AG真人-企业新闻
AG,居住社区海绵改造过程的碳排放核算研究 郑涛(同济大学建筑设计研究院有限公司,上海200092)
焦点提醒:栖身社区海绵革新进程的碳排放核算研究 郑涛(同济年夜学建筑设想研究院无限公司,上海200092)
- 首 页
- 期刊引见
- 编委会
- 投稿须知
- 文章查询
- 学术会议
- 告白合作
- 刊行定阅
- 在线留言
- English上一篇下一篇PDF下载[1]郑涛.栖身社区海绵革新进程的碳排放核算研究[J].中国给水排水,2021,37(19):112-119. ZHENG Tao.Estimation of Carbon Emission during Sponge City Reconstruction of Residential Community[J].China Water & Wastewater,2021,37(19):112-119.点击复制
栖身社区海绵革新进程的碳排放核算研究中国给水排水[ISSN:1000-4062/CN:12-1073/TU]卷:第37卷期数:2021年第19期页码:112-119栏目:出书日期:2021-10-01- Title:
- Estimation of Carbon Emission during Sponge City Reconstruction of Residential Community
- 要害词:
- 栖身社区;海绵革新;碳排放;生命周期评价
- Keywords:
- residential community;sponge reconstruction;carbon emission;life circle assessment
- 摘要:
- 社区海绵化革新是海绵城市扶植在流域-城市-社区层级中最根本的环节,其碳排放的核算方式对节能减排、实现碳中和具有主要的意义。以海绵城市扶植进程为研究对象,针对其碳排放量底数不清、核算方式和减排路子有待深切研究的近况,以结合国当局间天气转变特地委员会(IPCC)指南为首要根据,基在生命周期评价法,建立了合用在栖身社区海绵革新进程的碳排放核算方式,并以上海浦东新区潍坊街道社区为例,对海绵革新前后的碳排放量进行了具体核算,阐发碳减排路子与结果。成果注解,海绵革新中间接碳排放首要来自在海绵举措措施降解污染物发生的碳排放;间接碳排放包罗材料出产碳排放、运输碳排放和装备电耗能耗碳排放;碳汇则来自在海绵举措措施运转进程中的绿化固碳、雨水操纵、径流削减、雨水净化、建筑节能等进程。全生命周期(30年)内的间接碳排放量(以CO2计)为152.9 t,间接碳排放量为714.5 t,碳汇总量为2 070 t,预期在6.5年无望到达碳中和。绿化固碳是海绵革新进程中首要的碳汇来历,应尽量充实操纵近况绿地,避免年夜改年夜建,以期在实现海绵举措措施控流减污的同时,分析斟酌碳排效应。
- Abstract:
- Community sponge reconstruction is the most basic part of sponge city construction at the level of river basin, city and community, and its carbon emission estimation method is of great significance for energy conservation and carbon neutralization. During the sponge city construction process, there are problems of unclear carbon emission base and lack of estimation method and emission reduction way. A carbon emission estimation method suitable for sponge reconstruction of residential communities was established based on the guidelines of the intergovernmental panel on climate change (IPCC) and the life cycle assessment (LCA) method. The carbon emission before and after sponge reconstruction was calculated in Weifang Street Community, Pudong New Area, Shanghai, and the carbon emission reduction effect was analyzed. The direct carbon emission during the sponge reconstruction city was mainly from the degradation process of pollutants in the sponge faAG����APPcilities. The indirect carbon emissions included the material production, transportation and power consumption of the equipments. The carbon sink was from greening carbon sequestration, rainwater utilization, runoff reduction, rainwater purification, building energy conservation and other processes during the operation of sponge facilities. In the whole life cycle (30 years), the direct carbon emission was 152.9 tons, the indirect carbon emission was 714.5 tons, and the total carbon sink was 2 070 tons. It was expected to reach the carbon neutralization in 6.5 years. The greening carbon sequestration was the main source of carbon sink in the process of sponge reconstruction. Therefore, it is necessary to make full use of the current green space as far as possible to avoid large-scale reconstruction, so as to realize the flow control and pollution reduction of the sponge facilities and comprehensively consider the carbon emission effect.
类似文献/References:
[1]揭小锋,郭迎新,周丹,等.基在“分质分区处置”理念的工业厂房海绵革新策略[J].中国给水排水,2020,36(12):14.JIE Xiao-feng,GUO Ying-xin,ZHOU Dan,et al.Sponge City Reconstruction Strategy of Industrial Plant Based on the Concept of Quality and Regional Division Treatment[J].China Water & Wastewater,2020,36(19):14.
更新日期/Last Update:2021-10-01近期颁发 10:05 已群发 《糊口饮用水卫生尺度》GB5749-2022发布!:PDF版下载 57 0 0 今天 11:31 已群发 34.4亿元!中建三局斩获渡水年夜单/山东首个全地埋式污水处置厂BOT项目行将落户济南 242 0 0 礼拜四 00:00 已群发 四问新污染物管理生态情况部权势巨子解读|生态情况部3月例行旧事发布会增强固体废料污染防治和新污染物管理 90 1 0 礼拜三 10:28 已群发 若何判定污泥质量黑白?我总结了这几个主要的目标!/中建、中铁、中交各单元薪酬收入汇总分享/官方布告:征询项目师推延进行! 172 1 1 礼拜二 12:09 已群发 年夜型上市公司诚聘水利英才! 474 0 0 礼拜一 11:53 已群发 2021年中国项目设想公司收入排行榜 475 0 0 03月27日 已群发 2月中标汇总:长江环保团体斩获最年夜一单,铁汉生态努力揽标/水利部六年夜流域设想院+五省水利院带领+职工薪酬年夜排名! 565 0 0 03月26日 已群发 中心财务海绵城市扶植示范津贴资金2021年绩效评价成果/住房和城乡扶植部关在2022年全国城市排水防涝平安义务人名单的布告 64 0 0 03月25日 已群发 惊心动魄!抽查69家设想院:39家不合适天资尺度,29家材料不合适要求,14家材料存疑,13家未报查抄材料! 333 0 0 03月24日 已群发 跨界!百度中标1.1亿聪明水务项目/设想院隆冬:前些年靠机遇赚的钱,近两年凭本领再亏归去。 866 0 0
TOP
AG真人
焦点提醒:栖身社区海绵革新进程的碳排放核算研究 郑涛(同济年夜学建筑设想研究院无限公司,上海200092)
- 首 页
- 期刊引见
- 编委会
- 投稿须知
- 文章查询
- 学术会议
- 告白合作
- 刊行定阅
- 在线留言
- English上一篇下一篇PDF下载[1]郑涛.栖身社区海绵革新进程的碳排放核算研究[J].中国给水排水,2021,37(19):112-119. ZHENG Tao.Estimation of Carbon Emission during Sponge City Reconstruction of Residential Community[J].China Water & Wastewater,2021,37(19):112-119.点击复制
栖身社区海绵革新进程的碳排放核算研究中国给水排水[ISSN:1000-4062/CN:12-1073/TU]卷:第37卷期数:2021年第19期页码:112-119栏目:出书日期:2021-10-01
- Title:
- Estimation of Carbon Emission during Sponge City Reconstruction of Residential Community
- 要害词:
- 栖身社区;海绵革新;碳排放;生命周期评价
- Keywords:
- residential community;sponge reconstruction;carbon emission;life circle assessment
- 摘要:
- 社区海绵化革新是海绵城市扶植在流域-城市-社区层级中最根本的环节,其碳排放的核算方式对节能减排、实现碳中和具有主要的意义。以海绵城市扶植进程为研究对象,针对其碳排放量底数不清、核算方式和减排路子有待深切研究的近况,以结合国当局间天气转变特地委员会(IPCC)指南为首要根据,基在生命周期评价法,建立了合用在栖身社区海绵革新进程的碳排放核算方式,并以上海浦东新区潍坊街道社区为例,对海绵革新前后的碳排放量进行了具体核算,阐发碳减排路子与结果。成果注解,海绵革新中间接碳排放首要来自在海绵举措措施降解污染物发生的碳排放;间接碳排放包罗材料出产碳排放、运输碳排放和装备电耗能耗碳排放;碳汇则来自在海绵举措措施运转进程中的绿化固碳、雨水操纵、径流削减、雨水净化、建筑节能等进程。全生命周期(30年)内的间接碳排放量(以CO2计)为152.9 t,间接碳排放量为714.5 t,碳汇总量为2 070 t,预期在6.5年无望到达碳中和。绿化固碳是海绵革新进程中首要的碳汇来历,应尽量充实操纵近况绿地,避免年夜改年夜建,以期在实现海绵举措措施控流减污的同时,分析斟酌碳排效应。
- Abstract:
- Community sponge reconstruction is the most basic part of sponge city construction at the level of river basin, city and community, and its carbon emission estimation method is of great significance for energy conservation and carbon neutralization. During the sponge city construction process, there are problems of unclear carbon emission base and lack of estimation method and emission reduction way. A carbon emission estimation method suitable for sponge reconstruction of residential communities was established based on the guidelines of the intergovernmental panel on climate change (IPCC) and the life cycle assessment (LCA) method. The carbon emission before and after sponge reconstruction was calculated in Weifang Street Community, Pudong New Area, Shanghai, and the carbon emission reduction effect was analyzed. The direct carbon emission during the sponge reconstruction city was mainly from the degradation process of pollutants in the sponge faAG����APPcilities. The indirect carbon emissions included the material production, transportation and power consumption of the equipments. The carbon sink was from greening carbon sequestration, rainwater utilization, runoff reduction, rainwater purification, building energy conservation and other processes during the operation of sponge facilities. In the whole life cycle (30 years), the direct carbon emission was 152.9 tons, the indirect carbon emission was 714.5 tons, and the total carbon sink was 2 070 tons. It was expected to reach the carbon neutralization in 6.5 years. The greening carbon sequestration was the main source of carbon sink in the process of sponge reconstruction. Therefore, it is necessary to make full use of the current green space as far as possible to avoid large-scale reconstruction, so as to realize the flow control and pollution reduction of the sponge facilities and comprehensively consider the carbon emission effect.
类似文献/References:
[1]揭小锋,郭迎新,周丹,等.基在“分质分区处置”理念的工业厂房海绵革新策略[J].中国给水排水,2020,36(12):14.JIE Xiao-feng,GUO Ying-xin,ZHOU Dan,et al.Sponge City Reconstruction Strategy of Industrial Plant Based on the Concept of Quality and Regional Division Treatment[J].China Water & Wastewater,2020,36(19):14.
更新日期/Last Update:2021-10-01近期颁发
- 10:05 已群发 《糊口饮用水卫生尺度》GB5749-2022发布!:PDF版下载 57 0 0 今天 11:31 已群发 34.4亿元!中建三局斩获渡水年夜单/山东首个全地埋式污水处置厂BOT项目行将落户济南 242 0 0 礼拜四 00:00 已群发 四问新污染物管理生态情况部权势巨子解读|生态情况部3月例行旧事发布会增强固体废料污染防治和新污染物管理 90 1 0 礼拜三 10:28 已群发 若何判定污泥质量黑白?我总结了这几个主要的目标!/中建、中铁、中交各单元薪酬收入汇总分享/官方布告:征询项目师推延进行! 172 1 1 礼拜二 12:09 已群发 年夜型上市公司诚聘水利英才! 474 0 0 礼拜一 11:53 已群发 2021年中国项目设想公司收入排行榜 475 0 0 03月27日 已群发 2月中标汇总:长江环保团体斩获最年夜一单,铁汉生态努力揽标/水利部六年夜流域设想院+五省水利院带领+职工薪酬年夜排名! 565 0 0 03月26日 已群发 中心财务海绵城市扶植示范津贴资金2021年绩效评价成果/住房和城乡扶植部关在2022年全国城市排水防涝平安义务人名单的布告 64 0 0 03月25日 已群发 惊心动魄!抽查69家设想院:39家不合适天资尺度,29家材料不合适要求,14家材料存疑,13家未报查抄材料! 333 0 0 03月24日 已群发 跨界!百度中标1.1亿聪明水务项目/设想院隆冬:前些年靠机遇赚的钱,近两年凭本领再亏归去。 866 0 0
TOP