ENVIRONMENTALLY FRIENDLY STRATEGIES
Everything in our ecosystem is logically interconnected and influences each other according to the laws of nature. Everything – the flora and fauna, all processes, the global climate – simply everything in the ecosystem – is interconnected, interacts, and influences each other. As soon as something changes anywhere in the ecosystem, this change also affects everything else in the ecosystem.
These interrelationships and interdependencies within the ecosystem are well known to humanity. These are optimal conditions in the search for strategic and technological solutions to regenerate the ecological system and optimize the global climate. With the goal of preserving the Earth as a habitat for us and many generations to come, targeted, sustainable, and effective strategies for managing the ecological system in the future can be developed and implemented.
ANIMATION TO THE ENVIRONMENTALLY FRIENDLY STATEGY OF THE MULTI RING-AREAS OASES
ANIMATION TO THE ENVIRONMENTALLY FRIENDLY STRATEGY OF THE SMART PLANT ENGINEERING
STRATEGY OF THE SMART MULTI RING-AREAS OASES
Multi Ring Areas Oases are a sustainable contribution to the regeneration of the ecological system and to climate protection. Multi Ring Areas Oases also meet general societal demands for the utilization of land (see also: rapidea ® Multi Ring-Areas Oases).
Like an implant for the human body to cover and heal burns, these Multi Ring-Areas Oases can be deployed in large numbers and densities throughout the world (see also the image in the slider above). Each of the Multi Ring-Areas Oases will protect the damaged "skin" of the earth at its location and initiate a healing process: A region with barren and dry soil will be sufficiently moistened again through the action of a Multi Ring Areas Oasis, allowing microorganisms, among other things, to thrive in the soil again, and flora and fauna will once again find an optimal habitat and spread beyond the boundaries of the Multi-ring oases. Thus, for example, desert areas could be renaturalized on a large scale with the help of multi-ring oases.
At the core of a Multi Ring-Areas Oasis (see the schematic diagram on the left) is a lake 1, which is enclosed by a ring area designed as a natural area 2. This biotope consisting of lake 1 and natural area 2 is protectively enclosed by a ring area with above-ground and underground high-bay plantations 3, with cultivation options for regionally sourced fruit, vegetables, and other plants. This ring area is in turn enclosed by a ring area in which high-bay aquariums 4, in which, for example, edible fish, mussels, etc., are bred in symbiosis with the high-bay plantations 3, are cultivated. Another ring area is formed by a navigable canal 5, which is connected via canals 10 to an originally existing waterway network 11. Another ring area, designed as a typical amusement park 6, encloses all of the other aforementioned sub-areas.
If Multi Ring-Areas Oases are realized without significant space restrictions, e.g., outside urban areas or in desert regions, additional ring-shaped areas can be planned, for example, where new urban areas, solar fields, power plants, energy storage facilities, infrastructure, and industrial areas are located, or where animal husbandry and agriculture are carried out.
ANIMATION TO THE ENVIRONMENTALLY FRIENDLY STATEGY OF THE MULTI RING-AREAS OASES
STRATEGIE OF THE SMART PLANT ENGINEERING
Smart plant engineering is based on the combination of various individual, proven strategies and successfully tested technologies to create new technologies and new solution approaches. Smart plant engineering incorporates technologies and applies strategies that are already used in intelligent IT systems, smart products, Industry 4.0, smart product plant engineering, and artificial intelligence, among others.
In smart plant engineering, the components are logically interconnected. The monitoring of systems and processes occurs automatically. The systems self-regulate and automatically transmit information or alarms to people, switch the system or process sequences to a kind of safety mode in an emergency, can automatically replace worn-out units and components, readjust faulty software, and replace outdated software – all during ongoing operations or without significant interruption.
The strategies and technologies of smart plant engineering can be particularly advantageously applied in development projects where the objectives are to regenerate the ecological system and optimize the climate, or, for example, in development projects with the objectives of "safe, environmentally friendly, and sustainable."
Innovative technologies developed based on the many advantages of smart plant engineering are also particularly environmentally friendly, due, among other things, to the low risk of unexpected failures and accidents that harm nature.
ANIMATION TO THE ENVIRONMENTALLY FRIENDLY STRATEGY OF THE SMART PLANT ENGINEERING