Waste Sector GHG Inventory
Waste Data API Link
- Copy the part of the link provided above. This part contains the necessary information to retrieve the data.
- Append the copied part after the base URL of the website you are currently on. The resulting URL should point to the desired endpoint for accessing the data.
- Include an API key in the request header to authenticate and authorize access to the data. The API key value will be generated through the website's admin panel.
- Set the request header key-value pair as follows: If the api key is abcd1234 then, "Api-Key: abcd1234".
- Send the request to the modified URL, along with the API key in the header, to retrieve the requested data.
Instructions:
For additional information or assistance, you can contact us by visiting the "Contact Us" page.
The Waste sector covers methane emissions from solid waste disposal and domestic wastewater. The current GHG emission of this sector is 7.55% (Source: Overview of Bangladesh’s NDC at COP26, 2021). BAU is prepared based on the extrapolation of waste generation using urban population estimates (UN data) and waste generation rate (Third National Communication) in the Waste sector.
The total amount of waste generated every day in Bangladesh has been increasing annually since 1991. Whereas in 1991 the urban areas of Bangladesh generated approximately 6,493 tons per day of municipal solid waste, by 2005 that figure had more than doubled to reach 13,330 tons per day. In 2014, it is estimated that Bangladesh generated 23,688 tons per day in its urban areas. At the same time, the total urban population of Bangladesh increased from 20.8 million in 1991 to 32.76 million in 2005 and to 41.94 million in 2014. It is estimated that the total urban population will be as high as 78.44 million by 2025, and the total waste generated is expected to reach 47,000 tons per day. There is an obvious link between a larger urban population and greater amounts of waste generated. Interestingly, since 2005, the rate of change of total waste generated daily has exceeded the rate of population growth, due to an increased average daily per capita waste generation rate.
Emission Estimates - Waste Sector
Contribution of different catagories on waste sector's emission (%) (2019)
Total emission from waste sector CO2e Gg
Emission Estimates - Summary of waste sectors emission estimates
Greenhouse gas emission from Waste sector (CO2e Gg)
| 2019 | 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | Contribution of different categories on Waste sector's emission (%) | |
|---|---|---|---|---|---|---|---|---|
| 4.A.1-Methen emission from solid waste disposal (CO2e Gg) | 4100.0 | 3775.0 | 3475.0 | 3200.0 | 2950.0 | 2750.0 | 2550.0 | 19.49 |
| 4.D.1-Methane emission from domestic wastewater (CO2e Gg) | 13500.0 | 13375.0 | 13225.0 | 13075.0 | 12950.0 | 12800.0 | 12650.0 | 64.18 |
| 4.D.1-Nitrous Oxide emission from domestic wastewater (CO2e Gg) | 1889.0 | 1830.0 | 1767.0 | 1725.0 | 1675.0 | 1648.0 | 1597.0 | 8.98 |
| 4.D.2-Methane emission from industrial wastewater (CO2e Gg) | 1546.0 | 1420.0 | 1301.0 | 1149.0 | 1027.0 | 888.0 | 752.0 | 7.35 |
| Total (CO2e Gg) | 21035.0 | 20400.0 | 19768.0 | 19149.0 | 18602.0 | 18086.0 | 17549.0 |
You can download the report file of the Waste sector data here
