• ISBN Print:
  • ISBN Online:
    978-81-970328-9-9
  • Conference Type:
    Hybrid
  • Conference Dates:
    April 22 - 23 , 2024
  • Venue:
    Leonardo Royal Berlin Alexanderplatz, Otto-Braun-Straße 90, 10249, Berlin, Germany
  • Publisher:
    Eurasia Conferences

Management of Planetary Systems for Sustainable Living

Proceedings: Abstracts of the 4th World Conference on Environmental and Earth Sciences & 3rd World Conference on Recycling and Waste Management

Tad Soroczynski

Abstract

Human activities change the “natural” balance of planetary systems, and the changed balance then changes the performance of other systems. In addition, some systems are reacting on each other, and these, consequent, impacts also change the performance of impacted systems. This current situation requires immediate review.

The model of human activities on planetary systems and the methodology proposed for the management of planetary systems should be based on integrated systems analysis researched over the period 2002-2022 (Soroczynski, 2002, 2022a). .

Planetary systems should be considered as large chemical and biological plants in which all processes should be managed by human management/intervention of the relevant component systems to maintain sustainable living. For some systems, human intervention has, so far, been undertaken without the necessary understanding of the methodology needed to manage all planetary systems for sustainable living. Some cases of human interventions will be discussed. .

The difference of performance between universal systems and planetary systems will also be mentioned. The principal approach of this methodology is based on controlling processes as they would be controlled in chemical or biological plants. This approach considers human intervention to be necessary to maintain sustainable living. .

The climate is a different system which, currently, operates on entropy. The climatic system is impacted by carbon dioxide. For this reason, this system requires intervention, and this can be done by balancing and removing carbon dioxide at the sources. It is considered that this strategy would be the most effective. It should be noted that conditions of entropy may lead to the destruction of a system. .

Website: tadsoroczynski.com