When discussing modern environmental technologies designed for urban areas, the term "tree liquid" most often refers to the specific contents of a system known as a liquid tree.
The liquid found within a liquid tree is the core of its function. According to information provided regarding its development by Dr. Ivan Spasojevic, who holds a Ph. D. in Biophysical sciences, the liquid tree is fundamentally a 160-gallon clear tank filled with water and microalgae. This specific mixture of water and microalgae constitutes the 'tree liquid' in this context.
How the Liquid Tree Functions
The purpose of this liquid system is to replicate and enhance the air-purifying capabilities of traditional trees.
- The microalgae living in the water perform photosynthesis.
- Similar to leaves on a tree, they absorb carbon dioxide (CO2) from the surrounding air.
- Through photosynthesis, they convert this CO2 into oxygen (O2), releasing it back into the environment.
The reference indicates that while the liquid tree tank behaves the same as a natural tree in its primary function of converting carbon dioxide to oxygen, its overall efficiency in this process is reported to be higher.
Comparison: How it Functions
While different in form, the liquid tree shares a fundamental function with its natural counterparts:
| Feature | Traditional Tree | Liquid Tree |
|---|---|---|
| Primary Content | Wood, Leaves, Sap | Water and Microalgae |
| Location of Photosynthesis | Leaves | Microalgae within the tank |
| CO2 to O2 Conversion | Yes | Yes (Reported Higher Efficiency) |
| Developed By | Nature | Dr. Ivan Spasojevic |
Practical Application and Benefits
Liquid trees are being explored as an innovative urban green solution, particularly useful in densely populated areas where space for planting numerous large trees is limited. They serve as compact, highly efficient bioreactors that can significantly contribute to improving local air quality by actively reducing atmospheric CO2 levels.
