waste management

1. Development Digital Waste Management
Practice in Bandung District
Collaborate Between:

2. Introduction
Fig 1. Statistical Graph for Waste Based by Region Fig 2. Statistical Graph for Classification Waste Based
by Income
According to World Bank reports on solid waste management, the annual global production of municipal solid waste reaches
2.01 billion metric tons. A conservative estimate suggests that at least 33 percent of this enormous quantity is not handled
in an environmentally safe manner. On a worldwide scale, the average daily waste generated per person is 0.74 kilograms,
displaying a wide range from 0.11 to 4.54 kilograms

3. Introduction
Based on data published by SIPSSN of
the Ministry of Environment, waste
accumulation in Indonesia shows that
from 2020 to 2022 there was a
decrease in waste accumulation;
however, from 2022 to 2023 there
was a very high increase in waste
accumulation with a total of thirteen
million metric tons
Fig 3. Statistical graph for the amount of waste in Indonesia
from 2019 - 2023

4. Introduction
Fig 4. Statistical graph for Waste Composition

5. Fig 5. Statistical
Graph for
Classification Waste
Based by Month and
Year

6. Introduction
This work carries significant implications for the efficient handling of Municipal Solid
Waste (MSW), emphasizing the principles embedded in Integrated Waste
Management (IWM).
Drawing from Marshal's identified factors, including environmental effectiveness, social
acceptability, and economic affordability
The crucial role of recycling within the IWM system, influenced by factors such as IS
organization, market incentives, and efficient collection systems, underscores the
broader strategies essential for the sustainability of MSW.
01
02
03

7. Proposed Solution
• Increasing accountability for service performance, coordination, administrative
support, and developing responsive human resource capacity.
• Increasing efforts to control pollution and environmental damage through program
synergy, partnership development, and innovation, as well as the use and
development of environmentally friendly technology.
• Develop a database and information system for environmental protection and
management.
• Increasing legal structuring efforts, the performance of business actors, and the
active role of social supervision in environmental management.

8. Potential Development of Target Community
Partnerships for the Goals - Foster international collaboration, such as with the Netherlands,
to share knowledge and integrate successful waste management practices.
Industry, Innovation, and Infrastructure - Develop and enhance infrastructure for waste
management systems to support sustainable practices
Sustainable Cities and Communities - Implement comprehensive waste management
strategies involving various stakeholders to create sustainable and resilient cities.
Responsible Consumption and Production - Develop and enforce regulations (Regulation
No. P.75/MENLHK/SETJEN/KUM.1/10/2019) for waste reduction by producers, focusing
on planning, facility development, and waste retrieval mechanisms
01
02
03
04

9. Methods and Steps

10. Target Community Participation
The general public and
Dutch students who wish to
participate in waste
management can access
stages 1 and 2.
The design of an integrated
system between the
academic community at Tel-
U and the Bandung City
Environmental Service was
completed as the third stage.
The creation of regulations
is the last phase, which is
handled by the Bandung
City Environmental Service
and the academic
community at Tel-U.
2 3
1

11. Sustainability Opportunity of the Program
Reduction of Landfill Waste
Resource Conservation
Community Involvement and
Education
Employment Creation
Data-Driven Decision Making
Data-Driven Decision Making
Continuous Improvement:
Enforcing compliance with waste
management standards
Employment Creation
Data-Driven Decision Making

13. Output Target

14. Schedule