Pervious Concrete From The Sidewalk Paving Block Waste As A Catchment To Support USU To Become A Green Campus
Introduction
The University of North Sumatra (USU) has been striving to achieve its vision of becoming a green campus. However, the campus area is facing significant challenges in realizing this goal. One of the major obstacles is the vulnerability of the campus area to floods and standing water, mainly due to the reduced vegetation area that functions to absorb rainwater. The massive development in the campus area, such as paved parking lots, impermeable courtyards, and sports facilities made of cement, has resulted in rainwater not being able to be absorbed into the ground and flowing quickly to drainage. Inadequate drainage capacity causes the risk of flooding, especially when heavy rain occurs.
The Problem of Runoff Water in the Campus Area
The problem of runoff water in the campus area is a pressing issue that needs to be addressed. The use of pervious concrete, a specially designed concrete that allows water to pass through, has been increasingly popular as an alternative to overcome the problem of runoff water. In recent decades, the use of pervious concrete has developed rapidly in developed countries. This material not only reduces runoff water but also improves water quality in the area around the sidewalk and parking lots. Therefore, the revitalization of sidewalk waste in the form of concrete paving impermeable into pervious concrete, which is also connected to the biopori system, is expected to improve the ability to absorb water in the campus area.
The Benefits of Pervious Concrete
Pervious concrete has several benefits that make it an attractive solution to the problem of runoff water in the campus area. Firstly, it reduces the amount of runoff water, which in turn reduces the risk of flooding. Secondly, it improves water quality in the area around the sidewalk and parking lots. Thirdly, it is a sustainable solution that utilizes waste materials, making it an environmentally friendly option. Finally, it is a cost-effective solution that can be implemented at a relatively low cost.
The Compressive Strength of Pervious Concrete
The compressive strength of pervious concrete is an important factor to consider when evaluating its suitability for use in the campus area. Research has shown that the average compressive strength of pervious concrete with variations II.40% reached 8.5 MPa, while variation II.60% showed the lowest average compressive strength of 4.6 MPa. This indicates that the compressive strength of pervious concrete can vary depending on the specific mixture used.
The Infiltration Value of Pervious Concrete
The infiltration value of pervious concrete is another important factor to consider when evaluating its suitability for use in the campus area. Research has shown that the infiltration value of pervious concrete with variations II.60% reached a maximum value of 2.17 x 10^-4 mm/hour, while the minimum value at variation I.40% was 1.95 x 10^-4 mm/hour. This indicates that the infiltration value of pervious concrete can vary depending on the specific mixture used.
The Biopori System
The biopori system is an important component of the pervious concrete system. It allows water to infiltrate the ground, reducing the amount of runoff water and improving water quality. Research has shown that the biopori system can increase water infiltration efficiency by up to 50%.
The Economic Benefits of Pervious Concrete
The economic benefits of pervious concrete are significant. Each pervious concrete product unit is produced at a cost price of Rp 1,994.00. This shows that not only the environmental aspects benefited, but also the economic aspects of the use of waste, making this project sustainable and worth applying.
Conclusion
In conclusion, the use of pervious concrete from waste paving block sidewalks as a catchment to support USU to become a green campus is a viable solution to the problem of runoff water in the campus area. It reduces the amount of runoff water, improves water quality, and is a sustainable and cost-effective solution. By applying the concept of pervious concrete from paving block waste as water catchment, USU not only moves forward towards sustainable development goals, but also contributes to the reduction in flood risk and improving environmental quality. This effort will provide long-term benefits for all academics and surrounding communities, as well as making USU as an example of educational institutions that care about environmental issues.
Recommendations
Based on the research and findings, the following recommendations are made:
- Implement the use of pervious concrete in the campus area: The use of pervious concrete should be implemented in the campus area to reduce the amount of runoff water and improve water quality.
- Develop a biopori system: A biopori system should be developed to increase water infiltration efficiency and reduce the amount of runoff water.
- Conduct further research: Further research should be conducted to evaluate the long-term effects of pervious concrete and the biopori system on the campus area.
- Involve the community: The community should be involved in the implementation of pervious concrete and the biopori system to ensure that they are aware of the benefits and can participate in the process.
By following these recommendations, USU can move forward towards becoming a green campus and contributing to the reduction in flood risk and improving environmental quality.
Introduction
In our previous article, we discussed the benefits of using pervious concrete from waste paving block sidewalks as a catchment to support USU to become a green campus. In this article, we will answer some of the frequently asked questions about pervious concrete and its application in the campus area.
Q: What is pervious concrete?
A: Pervious concrete is a specially designed concrete that allows water to pass through it, reducing the amount of runoff water and improving water quality.
Q: How does pervious concrete work?
A: Pervious concrete works by allowing water to infiltrate the ground, reducing the amount of runoff water and improving water quality. The water that infiltrates the ground is then absorbed by the soil, reducing the risk of flooding and improving the overall water quality.
Q: What are the benefits of using pervious concrete?
A: The benefits of using pervious concrete include:
- Reduced amount of runoff water
- Improved water quality
- Sustainable and cost-effective solution
- Utilizes waste materials
- Reduces the risk of flooding
Q: How does pervious concrete compare to traditional concrete?
A: Pervious concrete is different from traditional concrete in that it allows water to pass through it, whereas traditional concrete does not. This makes pervious concrete a more sustainable and cost-effective solution for reducing runoff water and improving water quality.
Q: Can pervious concrete be used in areas with high traffic?
A: Yes, pervious concrete can be used in areas with high traffic. However, it is recommended to use a specialized pervious concrete mixture that is designed to withstand high traffic.
Q: How long does pervious concrete last?
A: Pervious concrete can last for many years, depending on the quality of the mixture and the maintenance of the surface. With proper maintenance, pervious concrete can last for 20-30 years or more.
Q: Can pervious concrete be repaired?
A: Yes, pervious concrete can be repaired. However, it is recommended to repair the surface as soon as possible to prevent further damage.
Q: How much does pervious concrete cost?
A: The cost of pervious concrete can vary depending on the location, size of the area, and type of mixture used. However, on average, pervious concrete can cost between $3 to $6 per square foot.
Q: Is pervious concrete a good solution for reducing flood risk?
A: Yes, pervious concrete is a good solution for reducing flood risk. By allowing water to infiltrate the ground, pervious concrete can reduce the amount of runoff water and improve the overall water quality.
Q: Can pervious concrete be used in areas with poor drainage?
A: Yes, pervious concrete can be used in areas with poor drainage. However, it is recommended to use a specialized pervious concrete mixture that is designed to handle poor drainage conditions.
Q: How can I get started with using pervious concrete in my campus area?
A: To get started with using pervious concrete in your campus area, you can:
- Contact a local contractor who specializes in pervious concrete
- Research and review the benefits and costs of pervious concrete
- Develop a plan for implementing pervious concrete in your campus area
- Involve your community in the process to ensure that they are aware of the benefits and can participate in the process.
By following these steps, you can successfully implement pervious concrete in your campus area and reduce the risk of flooding and improve water quality.