Simple Housing Control Model In Low -Based Urban Sustainable Housing Systems CO2 Emissions

Simple Housing Control Model in Low-Based Urban Sustainable Housing Systems CO2 Emissions: A Case Study at Griya Martubung I Medan

Introduction

The housing sector in Indonesia has undergone significant transformation in recent years, with a substantial number of houses undergoing renovation, restoration, or reconstruction between 2000 to 2009. This process, spanning from pre-construction to post-construction, has resulted in substantial CO2 emissions. Research has shown that CO2 emissions not only arise from construction but also from the aspect of spatial use in housing. To address this issue, a systemic approach is necessary to control CO2 emissions in the housing sector.

Background

The housing sector in Indonesia is a significant contributor to the country's CO2 emissions. The rapid growth of urban populations and the increasing demand for housing have led to the development of new housing projects, which in turn have resulted in significant CO2 emissions. The construction process, including the extraction and processing of raw materials, transportation, and waste management, is a major source of CO2 emissions. Additionally, the spatial use of housing, including the layout, design, and functionality of buildings, also contributes to CO2 emissions.

Methodology

This study employed a qualitative approach to analyze the dynamics and factors that affect CO2 emissions in a low-income residential area, Griya Martubung I Medan. Phenomenological analysis was applied through in-depth interviews, observations, and discussions with various stakeholders. The study examined various housing design components related to CO2 emissions, including infrastructure, social and economic facilities, and the behavior and habits of residents.

Results

The results of this study show that CO2 emissions in Griya Martubung I are influenced by the interaction of three main sub-systems:

Simple Housing Supporting Environmental Sub-System

• Includes infrastructure such as transportation access, clean water networks, and waste management systems.
• This sub-system plays a crucial role in reducing CO2 emissions by providing residents with access to clean water, sanitation, and waste management facilities.

Environmental Sub-System Supporting Simple Housing Life

• Includes social and economic facilities such as markets, schools, and places of worship, as well as access to health services.
• This sub-system contributes to reducing CO2 emissions by providing residents with access to essential services and facilities.

Sub-system of Simple Housing Life Norms

• Includes the behavior and habits of residents in utilizing space and energy, as well as the application of social norms in daily life.
• This sub-system plays a significant role in reducing CO2 emissions by promoting environmentally friendly behavior among residents.

Discussion

The interaction between components in these three sub-systems produces complex cause-effect patterns. This study identifies the causal relationship, interaction logic, and characteristics of each component. From this analysis, a simple housing control policy model can be formed to reduce CO2 emissions and create a better environment.

Advantages of CO2 Emission Control Policy Model

• Holistic approach: This model considers all aspects that affect CO2 emissions, not just construction.
• Multi-Stakeholder participation: Involving all stakeholders, including residents, developers, and government, in formulating policies.
• Focus on simple housing: This model is specifically designed for low-income housing, which generally has unique challenges related to CO2 emissions.

Practical Implications

• Sustainable housing design development: This model can be a reference in designing sustainable housing that is environmentally friendly and energy efficient.
• Promotion of environmentally friendly behavior: This model can help in encouraging changes in the behavior of residents to reduce energy consumption and CO2 emissions.
• Policy and regulation development: This model can be the basis for the government in developing policies and regulations that support the development of sustainable housing.

Conclusion

The simple housing control model developed in this study has great potential to be an effective solution in reducing CO2 emissions and improving the quality of life in low-income housing. The implementation of this model requires a strong commitment from all stakeholders to create a sustainable and environmentally friendly urban environment.

Recommendations

• The government should develop policies and regulations that support the development of sustainable housing.
• Developers and builders should incorporate sustainable design principles into their projects.
• Residents should be encouraged to adopt environmentally friendly behavior and practices.
• Continuous monitoring and evaluation of the effectiveness of the simple housing control model should be conducted.

Limitations

• This study was conducted in a single case study, Griya Martubung I Medan, and may not be generalizable to other contexts.
• The study relied on qualitative methods, which may have limitations in terms of generalizability and reliability.

Future Research Directions

• Further research should be conducted to validate the effectiveness of the simple housing control model in other contexts.
• The study should be replicated in other countries to explore the applicability of the model in different cultural and environmental contexts.
• The study should investigate the impact of the simple housing control model on other environmental indicators, such as water and air quality.
  Frequently Asked Questions: Simple Housing Control Model in Low-Based Urban Sustainable Housing Systems CO2 Emissions

Q: What is the Simple Housing Control Model?

A: The Simple Housing Control Model is a systemic approach to controlling CO2 emissions in the housing sector. It considers all aspects that affect CO2 emissions, including construction, spatial use, and behavior of residents.

Q: What are the three main sub-systems of the Simple Housing Control Model?

A: The three main sub-systems of the Simple Housing Control Model are:

1. Simple Housing Supporting Environmental Sub-System: This sub-system includes infrastructure such as transportation access, clean water networks, and waste management systems.
2. Environmental Sub-System Supporting Simple Housing Life: This sub-system includes social and economic facilities such as markets, schools, and places of worship, as well as access to health services.
3. Sub-system of Simple Housing Life Norms: This sub-system includes the behavior and habits of residents in utilizing space and energy, as well as the application of social norms in daily life.

Q: What are the advantages of the Simple Housing Control Model?

A: The advantages of the Simple Housing Control Model include:

1. Holistic approach: This model considers all aspects that affect CO2 emissions, not just construction.
2. Multi-Stakeholder participation: Involving all stakeholders, including residents, developers, and government, in formulating policies.
3. Focus on simple housing: This model is specifically designed for low-income housing, which generally has unique challenges related to CO2 emissions.

Q: What are the practical implications of the Simple Housing Control Model?

A: The practical implications of the Simple Housing Control Model include:

1. Sustainable housing design development: This model can be a reference in designing sustainable housing that is environmentally friendly and energy efficient.
2. Promotion of environmentally friendly behavior: This model can help in encouraging changes in the behavior of residents to reduce energy consumption and CO2 emissions.
3. Policy and regulation development: This model can be the basis for the government in developing policies and regulations that support the development of sustainable housing.

Q: What are the limitations of the Simple Housing Control Model?

A: The limitations of the Simple Housing Control Model include:

1. Case study limitations: This study was conducted in a single case study, Griya Martubung I Medan, and may not be generalizable to other contexts.
2. Qualitative methods: The study relied on qualitative methods, which may have limitations in terms of generalizability and reliability.

Q: What are the future research directions for the Simple Housing Control Model?

A: The future research directions for the Simple Housing Control Model include:

1. Validation of the model: Further research should be conducted to validate the effectiveness of the Simple Housing Control Model in other contexts.
2. Replication of the study: The study should be replicated in other countries to explore the applicability of the model in different cultural and environmental contexts.
3. Investigation of other environmental indicators: The study should investigate the impact of the Simple Housing Control Model on other environmental indicators, such as water and air quality.

Q: How can the Simple Housing Control Model be implemented in practice?

A: The Simple Housing Control Model can be implemented in practice by:

1. Developing policies and regulations: The government should develop policies and regulations that support the development of sustainable housing.
2. Incorporating sustainable design principles: Developers and builders should incorporate sustainable design principles into their projects.
3. Encouraging environmentally friendly behavior: Residents should be encouraged to adopt environmentally friendly behavior and practices.

Q: What are the benefits of implementing the Simple Housing Control Model?

A: The benefits of implementing the Simple Housing Control Model include:

1. Reduced CO2 emissions: The model can help reduce CO2 emissions by promoting sustainable housing design and environmentally friendly behavior.
2. Improved quality of life: The model can help improve the quality of life of residents by providing access to essential services and facilities.
3. Sustainable urban development: The model can help promote sustainable urban development by reducing the environmental impact of housing projects.