Rooftop rainwater harvesting for home

Scarcity of clean drinking water has become a prevalent problem in many parts of the world, including India. For this reason, every effort made towards the conservation of water is necessary. Rooftop rainwater harvesting is an eco-friendly and cost-effective solution for conserving water at home. Read on to learn all about this technique and its benefits.

See also: Can you install rooftop solar panels in your apartment?

 

What is rooftop rainwater harvesting?

Rooftop rainwater harvesting is a straightforward technique that involves collecting and storing rainwater from a house’s roof for various purposes. The harvested rainwater can be utilised for non-potable household activities, such as watering gardens, thereby diminishing reliance on conventional water sources. This method has gained prominence in apartments and gated complexes, emerging as a crucial approach for water conservation. The process involves the installation of a rainwater harvesting system, typically comprising roof gutters, downpipes, and a storage tank. Its popularity stems from its ease of implementation and the positive impact it can have on reducing water consumption from municipal supplies.

 

Rooftop rainwater harvesting: Uses

Rooftop rainwater harvesting is a prevalent practice in India and across the globe, serving diverse purposes aimed at sustainable water usage. The key uses include:

• Groundwater recharge: Facilitating the replenishment of groundwater by directing harvested rainwater into soil, contributing to overall water table stability.

• Irrigation and house gardens: Providing a valuable water source for the irrigation of crops and nurturing house gardens, promoting green space.

• Toilet flushing and clothes washing: Utilising harvested rainwater for non-potable household activities like flushing toilets and washing clothes, reducing dependence on treated water.

• Reducing strain on traditional water sources: Alleviating the demand on conventional water supplies by incorporating harvested rainwater into daily usage, fostering sustainable water consumption.

• Mitigating water scarcity impact: Acting as a proactive measure to address water scarcity challenges by harnessing an alternative water source.

• Supporting sustainable water management: Encouraging responsible water management practices by integrating rooftop rainwater harvesting into the broader framework of sustainable water use.

 

Rooftop rainwater harvesting: Components

Rooftop rainwater harvesting involves a systematic process that includes various components to efficiently collect, filter and store rainwater for reuse or recharge. Here are the key components involved in different stages of the process:

Catchments

These are surfaces directly exposed to rainfall, such as building terraces, lawns, courtyards, or open grounds. Roofs made of materials like galvanised iron, reinforced cement concrete (RCC), or corrugated sheets serve as effective catchment areas.

Channels

These are structures that collect rainwater from the edges of a sloping roof and channel it towards a storage tank. Channels can be made of materials like polyvinyl chloride (PVC), plain galvanised iron (GI) sheet, or bamboo trunks.

Conduits

These are pipelines or drains responsible for transporting rainwater from the catchment area to the harvesting system. Conduits can be constructed using materials like PVC or galvanised iron.

First-flushing

This is a valve designed to flush out runoff from the initial rainfall, preventing pollutants from entering the system. It is crucial as the first spell of rain often carries a higher concentration of airborne and catchment surface pollutants.

Filter

This is a unit that eliminates suspended pollutants from rainwater before it enters the storage tank, or recharge structure. The filter chamber typically contains filtering media like fibre, coarse sand, and gravel layers.

Storage facility

These are tanks with varying shapes (rectangular, cylindrical, square) and construction materials (ferrocement, reinforced cement concrete, masonry, metal sheets, plastic). Tanks can be positioned above ground, partly underground or fully underground, requiring periodic maintenance for cleaning and disinfection.

Recharge structures

These are the mechanisms to facilitate the percolation of rainwater into groundwater aquifers. They include:

• Recharge trenches and permeable pavements promote percolation at shallower depths.

• Recharge wells conduct water to greater depths, contributing to groundwater replenishment.

• Recharge pits, lined with brick/stone walls and openings, facilitate percolation while following a design procedure like a settlement tank.

 

Rooftop rainwater harvesting: Installation

Installing a rooftop rainwater harvesting system in homes, offices and apartments is a straightforward process. Here’s a comprehensive step-by-step guide to help you set up the system in your building:

• Assess rooftop suitability: Evaluate the rooftop to ensure it is suitable for rainwater harvesting. Consider factors such as size, material, and structural integrity.

• Clean gutters and downpipes: Ensure unobstructed water flow by cleaning gutters and downpipes, removing debris or blockages.

• Install a first flush diverter: Incorporate a first flush diverter to divert initial rainwater, which may contain pollutants, away from the harvesting system.

• Place leaf guards: Install leaf guards to prevent leaves and larger debris from entering the system, maintaining water quality. 

• Install a fine mesh filter: Enhance water purification by installing a fine mesh filter to trap finer particles and impurities from the collected rainwater.

• Connect water pipes to storage tanks: Establish connections from the rooftop to storage tanks using water pipes, ensuring a seamless flow of harvested rainwater.

• Place an overflow pipe: Install an overflow pipe to prevent tank overflow during heavy rainfall, directing excess water away from the harvesting system.

• Install a water pump (if necessary): If needed for distribution purposes, install a water pump to facilitate the efficient use of harvested rainwater.

• Regularly inspect pipes: Maintain optimal efficiency by regularly inspecting and cleaning the water pipes, filters, and other components of the system.

• Follow local regulations: Adhere to local regulations and guidelines related to rainwater harvesting. Seek professional advice if necessary to ensure compliance and optimal performance.

 

Rooftop rainwater harvesting: Advantages

Implementing rooftop rainwater harvesting offers several benefits, promoting sustainable water management. Here are the advantages:

• Water conservation and cost reduction: Promotes efficient water conservation, leading to reduced water bills for households or establishments.

• Mitigation of on-road flooding and soil erosion: Helps mitigate on-road flooding and soil erosion within the complex, contributing to environmental resilience.

• Cost-effective and easy implementation: The system is cost-effective, with a straightforward implementation process that requires minimal maintenance.

• Diminished usage of potable water: Reduces reliance on potable water for various purposes, offering an alternative water source for non-potable needs.

• Reduction in water consumption: Contributes to a significant reduction in water consumption, potentially lowering overall usage by up to 40%.

 

Rooftop rainwater harvesting: Disadvantages

While rooftop rainwater harvesting offers numerous benefits, it is essential to be aware of certain drawbacks associated with this system:

• Regular maintenance required: The system demands consistent maintenance to ensure optimal functionality. Regular checks and cleaning are necessary to prevent clogging and maintain water quality.

• Limited storage capacity: The storage capacity for harvested rainwater is finite, posing a limitation on the quantity that can be stored. In periods of heavy rainfall, there is a risk of overflow if the storage capacity is exceeded.

• Expertise needed for installation: Proper installation of rooftop rainwater harvesting systems requires expertise. Professionals with knowledge in water management systems should be engaged to ensure accurate setup.

• Dependency on rainfall: The effectiveness of the system is directly linked to rainfall. In regions with irregular or insufficient rainfall, the water supply from this method may be limited, impacting its reliability.

 

Rooftop rainwater harvesting: Maintenance

To ensure the consistent functionality of your rooftop rainwater harvesting system, follow these steps for regular maintenance:

• Clear debris from pipes: Regularly clean any accumulated debris from pipes to maintain unobstructed water flow.

• Inspect pipes for blockages: Conduct periodic inspections of pipes to identify and address any blockages that may hinder water movement.

• Check for water leaks: Inspect the entire system for potential water leaks, addressing any issues promptly to prevent wastage.

• Clean the filter for efficient water flow: Clean the filter at appropriate intervals to ensure efficient water filtration and prevent clogging.

• Inspect storage tanks for cracks: Regularly examine the storage tanks for cracks or damage, repairing any issues to prevent water loss.

• Monitor water quality regularly: Keep a consistent check on the quality of harvested water, ensuring it meets the desired standards for various applications.

 

FAQs

Can rainwater harvesting be done at home?

Yes, rainwater harvesting is a common practice in houses in India.

What is a rooftop rainwater harvesting system called in Rajasthan?

In Rajasthan, a rooftop rainwater harvesting system is known as ‘Tankas’.

Where in India is rooftop rainwater harvesting most common?

In India, the practice of rooftop rainwater harvesting is most common in Meghalaya.

What type of roof is the best for rainwater harvesting?

For rainwater harvesting, a roof made from standing seam metal is the best choice.

What is the cost of rooftop rainwater harvesting?

On an average, installing a rooftop rainwater harvesting system can cost anywhere from Rs 15,000 to Rs 30,000 in India.

Got any questions or point of view on our article? We would love to hear from you. Write to our Editor-in-Chief Jhumur Ghosh at jhumur.ghosh1@housing.com