Construction indicators
3. Closing material loops and reducing harmful resource use
34. Domestic material consumption (DMC) | Sector |
39. Circular Material Use Rate | Sector |
39. Circular Material Use Rate | Demonstration action |
48. EU self-sufficiency for raw materials | Sector |
55. EOL-RR (End of Life Recycling Rate) | Sector |
57. Amount of sector specific waste that is produced | Sector |
58. End of Life Processing Rate | City |
58. End of Life Processing Rate | Demonstration action |
58. End of Life Processing Rate | Sector |
59. Incineration rate | City |
59. Incineration rate | Sector |
61. Landfilling rate | Sector |
61. Landfilling rate | City |
39. Circular Material Use Rate | Demonstration action
Metadata group | # | Metadata category | Description / comments |
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Identifier | 1 | Indicator number | 39 |
2 | Indicator name | Circular Material Use Rate | |
Link to Circular City Definition | 3 | Vision element | Closing material loops and reducing harmful resource use |
4 | Category |
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Indicator definition and description | 5 | Definition / description of indicator | The circular material use rate (CMU), also called Circularity rate measures, in percentage, the share of material recovered and fed back into the economy - thus saving extraction of primary raw materials - in overall material use. A higher Circularitity rate value indicates more secondary materials substituting for primary raw materials i.e. avoiding the environmental impacts of extracting primary material. |
6 | Rationale | By measuring this rate, it will be possible to make us an idea of the circularity of the city, coparing it with the circularity of the DA | |
7 | Methodology | "Circularity rate (CMU) is defined as the ratio of the circular use of materials (U) to the overall material use (M). CMU = U/M = (RCV_R - IMPw + EXPw) / (DMC + RCV_R - IMPw + EXPw) The overall material use is measured by summing up the aggregate domestic material consumption (DM3. and the circular use of materials (M = DMC + U). DMC is defined in economy-wide material flow accounts. The circular use of materials is approximated by the amount of waste recycled in domestic recovery plants (RCV_R), minus imported waste destined for recovery (IMPw), plus exported waste destined for recovery abroad (EXPw). Waste recycled in domestic recovery plants comprises the recovery operations R2 to R11 as defined in the Waste Framework Directive 75/442/EEC. European statistics on international trade in goods (ITGS) are used to approximate the imports and exports of waste destined for recycling, i.e. the amount of imported waste bound for recovery (IMPw), and the amount of exported waste bound for recovery (EXPw).” Source: https://ec.europa.eu/eurostat/cache/metadata/EN/env_ac_cur_esms.htm |
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8 | Unit | % | |
Data | 9 | Baseline data / definition | To be calculated/estimated. |
10 | Data sources / relevant databases | EMASESA interna Data. LIPASAM interna Data. | |
11 | Overall accuracy | tonnes/year, weighted/estimated. | |
Context | 12 | Sector coverage | CDW |
13 | Reference area / spatial implementation scale | City of Seville | |
14 | Reference period | Project period 1.10.2019 – 30.9.2023 | |
15 | SDG reference | ||
Other | 16 | Comments |
58. End of Life Processing Rate | City
Metadata group | # | Metadata category | Description / comments |
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Identifier | 1 | Indicator number | 58 |
2 | Indicator name | End of Life Processing Rate | |
Link to Circular City Definition | 3 | Vision element | Closing material loops and reducing harmful resource use |
4 | Category |
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Indicator definition and description | 5 | Definition / description of indicator | The End-of-Life Processing Rate (EoL PR) measures the efficiency of the end-of-life processing process. |
6 | Rationale | ||
7 | Methodology | For each material fraction, the End-of-Life processing rate is defined as: The End-of-Life mass recycled divided by the End-of-Life mass collected. |
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8 | Unit | % | |
Data | 9 | Baseline data / definition | |
10 | Data sources / relevant databases | ||
11 | Overall accuracy | ||
Context | 12 | Sector coverage | |
13 | Reference area / spatial implementation scale | ||
14 | Reference period | ||
15 | SDG reference | ||
Other | 16 | Comments |
58. End of Life Processing Rate | Demonstration action
Metadata group | # | Metadata category | Description / comments |
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Identifier | 1 | Indicator number | 58 |
2 | Indicator name | End of Life Processing Rate | |
Link to Circular City Definition | 3 | Vision element | Closing material loops and reducing harmful resource use |
4 | Category |
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Indicator definition and description | 5 | Definition / description of indicator | The End-of-Life Processing Rate (EoL PR) measures the efficiency of the end-of-life processing process. |
6 | Rationale | Several actions of the city of Seville in the project promote the recycling of CDW, through the installation of a separate collection system and pilot alternatives of treatment further than landfilling. Also, others actions such as communication campaings will be carried out in order to promote the system, his correct use and awareness about the types of material which are allowed in the different containers in the "Clean Point". This last item results in the purity of the material obtanied and therefore, in the efficiency of the recycling process. | |
7 | Methodology | For each material fraction, the End-of-Life processing rate is defined as: The End-of-Life mass recycled divided by the End-of-Life mass collected. |
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8 | Unit | % | |
Data | 9 | Baseline data / definition | Baseline 0 (only activities during the project are measured) |
10 | Data sources / relevant databases | LIPASAM data. EMASESA data. FERMOVERT data. | |
11 | Overall accuracy | %; tonnes weighted/estimated. | |
Context | 12 | Sector coverage | CDW |
13 | Reference area / spatial implementation scale | City of Seville | |
14 | Reference period | Project period 1.10.2019 – 30.9.2023 | |
15 | SDG reference | ||
Other | 16 | Comments |
59. Incineration rate | City
Metadata group | # | Metadata category | Description / comments |
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Identifier | 1 | Indicator number | 59 |
2 | Indicator name | Incineration rate | |
Link to Circular City Definition | 3 | Vision element | Closing material loops and reducing harmful resource use |
4 | Category |
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Indicator definition and description | 5 | Definition / description of indicator | Mass percentage of waste which is incinerated. |
6 | Rationale | ||
7 | Methodology | Mass of materials incinerated divided by total amount of waste. Data from waste management companies. |
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8 | Unit | % | |
Data | 9 | Baseline data / definition | |
10 | Data sources / relevant databases | ||
11 | Overall accuracy | ||
Context | 12 | Sector coverage | |
13 | Reference area / spatial implementation scale | ||
14 | Reference period | ||
15 | SDG reference | ||
Other | 16 | Comments |
61. Landfilling rate | City
Metadata group | # | Metadata category | Description / comments |
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Identifier | 1 | Indicator number | 61 |
2 | Indicator name | Landfilling rate | |
Link to Circular City Definition | 3 | Vision element | Closing material loops and reducing harmful resource use |
4 | Category |
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Indicator definition and description | 5 | Definition / description of indicator | Mass percentage of waste which is landfilled. |
6 | Rationale | ||
7 | Methodology | Mass of materials landfilled divided by total amount of waste. Data from waste management companies. |
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8 | Unit | % | |
Data | 9 | Baseline data / definition | |
10 | Data sources / relevant databases | ||
11 | Overall accuracy | ||
Context | 12 | Sector coverage | |
13 | Reference area / spatial implementation scale | ||
14 | Reference period | ||
15 | SDG reference | ||
Other | 16 | Comments |