How to build an effective system of rainwater harvesting in floodplains with river flooding, local flooding and waterlogging occurring after winter or violent storms in a situation of successively worsening drought, declining surface, subsurface and deep water resources?
Under the conditions of deepening negative effects of climate change, the accelerating process of global warming, the following question becomes more and more relevant and timely: how to build an effective system of rainwater collection in floodplains, where river flooding, local flooding and flooding occurring after winter or violent storms in a situation of successively parallel deepening problem of drought, declining surface, subcutaneous and deep water resources?
The negative effects of progressive climate change, the occurrence of more and more frequent weather anomalies, the occurrence of climatic disasters in many parts of the world and other effects of the increasingly rapid process of global warming are deepening year by year. In many parts of the world, due to the accelerating process of global warming, higher and higher temperatures during summer heatwaves, longer and more severe periods of drought are being recorded year after year. Low surface water levels and droughts are not only the result of the progressive process of global warming, but also of improperly carried out land reclamation and drainage of wetlands and marshes, as well as the overexploitation of a large part of the land area under unsustainable agriculture carried out under the formula of intensive production of agricultural crops, including crops mainly for the production of livestock feed. On the other hand, in some parts of the world, increasingly frequent weather anomalies cause violent storms and downpours resulting in the occurrence of floods and flooding. The aforementioned floods and waterlogging are increasingly occurring in areas used for agriculture and in areas of urban agglomerations, which causes additional problems and economic losses.
At present, i.e. in February 2024, in many parts of the world in the Northern Hemisphere of planet Earth on the one hand where the snow has recently fallen there are floods and waterlogging during the thaw, and paradoxically in other countries next to those lying tens or hundreds of kilometers away there are record high temperatures and record particularly troublesome droughts, historically lowest water levels in rivers and lakes, a decrease in the level of subcutaneous and deep-sea water resources. In countries currently experiencing record droughts, legally normalized bans are being imposed on the use of water for watering lawns, washing cars, filling swimming pools, etc., and even restrictions are being placed on the use of water in the irrigation of agricultural fields. On the other hand, the Southern Hemisphere of the planet experiences record heat during the summer season of the planet's south and subtropical zones. Chile in South America in January-February 2024 is experiencing record heat, high temperatures causing numerous forest fires. The burning forests caused fires in many cities, towns and villages, where many citizens ran various tourist and other services and lost everything because of the fires. The scale of the fires that occurred in Chile caused the government to impose states of disaster and states of emergency in many regions of the country, in which many residential homes, business buildings, hotels, tourist resorts and other building infrastructure were socialized. The scale of damage caused by these fires is the largest in many years.
In view of the above, it is necessary to take systemic and integrated measures, which, on the one hand, should limit the scale of the progressive process of global warming and thus should result in reducing the scale of the negative effects of climate change. On the other hand, it is necessary to adequately protect land areas characterized by a high level of risk of periodic accumulation of large amounts of surface and subsurface water from flooding and waterlogging. As part of the improvement of flood risk management, it is necessary to create a system of retention reservoirs, in which the regulation of the level of accumulated water reserves should be correlated with the results of the long-term weather forecasts carried out and the weather and climate change forecast models developed on their basis. Big Data Analytics, cloud computing, artificial intelligence and other ICT information technologies of advanced multi-criteria data processing and Industry 4.0/5.0 can help in this regard. Besides, over-regulated and concreted riverbeds should be naturalized to allow controlled dumping of excess water into areas of natural restored greenery, restored forests and swamps. In addition, reservoirs should be created to collect rainwater for agricultural purposes, i.e. to irrigate areas used for agriculture during periods of drought. These issues should be key elements in the sustainable management of water resources and the management of the risk of floods, drought and other consequences of the increasing occurrence of situations of weather anomalies and climatic disasters.
I am conducting research on this issue. I have included the conclusions of my research in the following article:
IMPLEMENTATION OF THE PRINCIPLES OF SUSTAINABLE ECONOMY DEVELOPMENT AS A KEY ELEMENT OF THE PRO-ECOLOGICAL TRANSFORMATION OF THE ECONOMY TOWARDS GREEN ECONOMY AND CIRCULAR ECONOMY
Article IMPLEMENTATION OF THE PRINCIPLES OF SUSTAINABLE ECONOMY DEVE...
In view of the above, I address the following question to the esteemed community of scientists and researchers:
Under the conditions of the deepening negative effects of climate change, the accelerating process of global warming, the following question is becoming more and more relevant and timely: How to build an effective system of rainwater collection in floodplains with river flooding, local flooding and waterlogging occurring after winter or violent storms in a situation of successively parallel deepening problem of drought, declining surface, subsurface and deep-sea water resources?
How to build an effective rainwater harvesting system in floodplains and permanent drought areas in order to reduce the scale of loss of water resources?
What do you think about this topic?
What is your opinion on this issue?
Please answer,
I invite everyone to join the discussion,
Thank you very much,
Best regards,
Dariusz Prokopowicz
The above text is entirely my own work written by me on the basis of my research.
In writing this text I did not use other sources or automatic text generation systems.
Copyright by Dariusz Prokopowicz
Hi. Here are the steps you can follow to reduce water depletion:
1. Assess Local Conditions:
Understand the rainfall patterns, soil type, topography, and existing water infrastructure in the area. This information will help determine the most suitable harvesting techniques.
2. Choose the Right Harvesting Techniques:
-Floodplains: Construct swales, berms, or contour trenches to capture and redirect floodwater into storage areas such as ponds or underground cisterns.
-Permanent Drought Areas: Utilize techniques like rooftop harvesting, where rainwater is collected from roofs and directed into storage tanks.
3. Design Storage Systems:
Determine the size and type of storage needed based on anticipated water usage and rainfall patterns. Options include above-ground tanks, underground cisterns, or natural reservoirs.
4. Filter and Purify:
Install filters to remove debris and contaminants from collected water. Depending on water quality, additional purification methods such as UV treatment or chlorination may be necessary.
5. Distribution System: Design a distribution network to deliver harvested water to where it's needed, whether for irrigation, household use, or replenishing groundwater.
6. Maintenance and Monitoring: Regularly inspect and maintain the system to ensure proper functioning. Monitor water levels, quality, and usage to optimize efficiency and identify any issues promptly.
7. Community Engagement: Educate local communities about the benefits of rainwater harvesting and involve them in the planning and implementation process. Encourage water-saving practices to further reduce depletion.
8. Regulatory Compliance: Ensure compliance with local regulations and obtain any necessary permits for construction and water usage.
We ask all projects above 1000 m2 in our area of interest to collect rainfall from the top of buildings through gutters and pipes that will take water to a settling and control tank and then to a previously designed infiltration tank, based on the 20-year rainfall. The infiltration tank is built far above the water table with a penetrating bottom and gravel blanket outside of the tank, to allow the water to seep and infiltrate through different layers to recharge groundwater.
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