Waste in Space
In order to achieve the long range human goal of Space habitation and travel we must meet the challenges of creating a self contained regenerative life support system, a closed loop ecosystem where equilibrium is maintained.

Waste on Earth
Whether in space, or back here on planet earth, the basic issues of achieving Environmental Sustainability are fundamentally the same. The correct prospective when extracting and manufacturing industrial materials or in Waste materials regeneration efforts, is maintaining a neutral environmental equilibrium.

Waste Material Regeneration
To become a sustainable society we must accept the responsibility for the ultimate disposition of all the materials generated as a result of our activities. A shift to embrace a Mass Balance Equilibrium Strategy towards Waste Material Regeneration has taken hold. The regeneration process may be an ultimate recycling solution for materials in any state, (solid, liquid or gaseous, such as Hydrogen & Carbon), to reduce and separate materials back into basic elements. Monatomic elements or diatomic singal elements rather than molecules of complex combinations consisting of multiple elements.

The regeneration process allows you to convert materials such as waste plastics and segregate them into pure gas, capture carbon dioxide and separate into carbon and oxygen, taking any complex materials and reducing and separating back into an elemental state.

Online Collaboration Group
By-ProductSynergy.com has established an online Group Collaboration Forum that is designed to share ideas, ask questions, look for information or seek/provide assistance in the advancement of the efforts related to Molecular Elemental Regeneration. Please feel free to contribute your input or queries to the group.

Elemental Regeneration
Various approaches to "Advanced Recycling" or "Chemical Recycling" attempt a partial thermal decomposition of hydrocarbons to reproduce a specific product. The goal is to achieve an ultimate method of recycling or Molecular Element Regeneration where you can take materials such as waste plastics and segregate them into pure Hydrogen & Carbon), capture carbon dioxide and separate into carbon and oxygen, take any complex materials and reduce and separate them back into the elemental state.
In the other half of this cycle you may use the pure elements as raw materials to engineer or build any complex materials you desire.

Elements and Energy
The Recovery 2.0 system is a sustainable approach to treat WASTE as a resource while assisting with the world's demand for clean WATER and clean ENERGY.

The Thermal Reduction method of Waste Recovery is an energy intense process that takes a novel approach to eliminate stack emissions by capturing the would be flue gases and turning them into a source for the recovery of ELEMENTS and ENERGY.

Energy and Mass
Exploring the relationship between energy and mass we make several observations.
If the law of conservation of energy is interpreted to mean that energy can neither be created nor destroyed, it can only be transformed or transferred from one form to another. We observe that elemental mass seems to follow the same principals.

The reaction to break Molecular bonds requires the input of energy and the reaction that joins or creates Molecular bonds gives off excess energy.

By developing the mathematical formula to manage or harness the energy related to transition reactions of mass from one form to another.

The Elemental Molecular Regeneration theory is a concept where compound molecules are completely reduced back to single elements and then the pure elements are reconstructed into any desired material.

Elemental Molecular Regeneration requires a technology that masters the manipulation of the Electromagnetic glue that bonds elements together. The method un-glues the molecular bond to separate pure elements and then pastes basic elements back into a molecular compound.

As an alternative to the complete conversion of molecules back to a single element, partial reduction reduces or breaks down materials into hydrocarbon chains.

Raw Elements Management & Trading
In order to support the developing economy in regenerated materials an online information exchange service has been established that specializes in promoting The Trading of Raw Elements on worldwide markets, physical materials development and commodity markets standardization.

Please feel free to participate in the online exchange by submitting your Buy or Sell inquiries -

Raw Elements Trading
Hydrogen trading in raw Hydrogen. Hydrogen Fuel Cells Generate clean Hydrogen for Hydrogen Fuel Energy.

Carbon
The worldwide trade in Carbon, carbon derivatives and carbon credits is currently a popular area of interest in renewed efforts to achieve environmental sustainability and carbon neutrality.

Oxygen

Sulphur Recovery

Water Regeneration