Some future ecological innovations

 

Balance and imbalance in ecosystems is interchangeable. However, in a pro-life context the scales always have to lean slightly in favor of balance. It’s a cyclical process as well, the center of which has to involve a bit more harmony, otherwise life and its aspect of structured matter is not possible.

We are at time that ecological destruction if not the most is one of the most dangerous existential threats to life forms on earth, including humans. Scientific evidence has it that the main source of this destruction is human activity.

Ecological destruction is a multi-factorial phenomenon that is linked to economic, social, psychological and technological factors including others. The current text focuses on the technological aspect of the ecological destruction and how technology can be used in a beneficial way.

Below is a list of innovations that are judged to be important for the reversal of the current ecological destruction and the avoidance of any future ecological crises. This list is not exhaustive and might be updated in intervals.

Ecological innovations list

1. Carbon capture

2. Artificial photosynthesis

3. Battery recycling and re-usability

4. Greater battery capacity (research for alternative battery materials, other than lithium for example)

5. Bio-degradable or/and re-usable and recyclable construction blocks for buildings and roads

6. Bio-degradable and non-toxic chemicals for industrial and domestic uses and processes

7. Electric machines and vehicles for all purposes (airplanes, tractors, ships, industrial equipment etc)

8. Bio-degradable or/and re-usable and recyclable assembly parts for machines

9. Use of natural processes such as bacterial synthesis of materials (clothing etc)

10. Bio-degradable or/and re-usable and recyclable domestic materials (cellulose food packaging etc)

11. Reflective nano-materials to send back to space solar radiation

12. Neat and fast demolition and construction of obsolete buildings (e.g. with automation)

13. Architectures and materials that allow mass spacious housing

14. Architectures and materials that can host plants and forests in buildings and urban settings

15. Capture and dissolution of dangerous substances from the air and the water (e.g. bacteria metabolizing petroleum)

16. Liquefaction or solidification of exhaust fumes (from factories etc) and their later re-usability in their form or in dissolved form

17. Manipulation of atoms and molecules to build materials (with matrices, 3D printers etc)

18. Big scale soil nutrient replenishing techniques and technologies (e.g. regenerative agriculture, drone spraying)

19. Big scale reforestation techniques and technologies (e.g. drone based planting)

20. Big scale, cost-effective and with non-toxic byproducts desalination

21. Low energy, cost-effective water transfer (including desalinated water)

22. Water vapor liquefaction at scale

23. Drinkable water reserves at scale

24. Artificial rain with pumping and spraying water in great distances

25. Organic waste management in buildings (e.g. installation of plants that can decompose excrement or food waste)

26. Computer processors with minimum heat dissipation

27. Advanced computer algorithms and infrastructure that require less energy consumption

28. Advanced sensors and data management in several areas (agriculture, heating systems etc) to automate processes and minimize energy and matter waste (e.g. precision irrigation)

29. Electronic devices and operation systems that allow for maximal device life-cycle

30. Decentralized green-renewable energy production (solar panels, wind generators in houses etc)

31. Nuclear fusion

4/1/2025