Sustainability and Eco-Cements
We are vitally interested in sustainability at TecEco. Our managing director, John Harrison, first invented Eco-Cements which set by absorbing CO2 out of the air. He then went on to design the Tec-Kiln so that the magnesia required could be made without releases. With Prof Cuff and others John's company TecEco have now formed the Global Sustainability Alliance and their Gaia Engineering project can potentially make buildings using waste and CO2 and produce fresh water as a bi product. Solving a number of the worlds problems was all a matter of imagination!
We must stop thinking of CO2 as a waste, rather, we should use our imagination and start thinking of the gas as a resource. The problem is what can we do with it?
Nature teaches us that CO2 in the form of carbonate can be used to build with and there are further advantages of doing so .
- Building and construction are the major flow on the planet making up about 70% of all materials flows
- Sequestration as carbonates is permanent (7% of the crust is carbonate sediment.)
- There is plenty of magnesium in seawater - enough to last over a billion years without replenishment at current needs for sequestration.
- The low temperatures at which magnesite can be calcined mean that making magnesia is potentially very efficient and achievable at low temperatures with non fossil fuel energy using the TecEco Tec-Kiln.
- Magnesium has a low molecular weight so a lot of CO2 is bound to it.
- Magnesium goes further as a carbonate binder than calcium because bound water makes up a substantial part of the hydrated carbonate molecules like nesquehonite.
- Magnesium compounds are characterised by being capable of strong polar bonding to other materials making them excellent for bonding wastes of all kinds.
John Harrison Explaining how we must Mimic Nature by Using CO2 to Build with (just like the seashells on the beach beneath his feet the fossil remains of which make up the cliffs behind him)
Materials of the future will be composites. That way we can use up our wastes. Using CO2 and Wastes to solve our sustainability problems is really a very simple yet brilliantly logical idea. Only around 22 billion tonnes of carbonate need to be made per annum to sequester more CO2 that we are loading the atmosphere with 
Using CO2 and Wastes to solve our Problems
Eco-Cements are made by blending reactive magnesium oxide with conventional hydraulic cements like Portland cement. They are environmentally friendly because in permeable concretes the magnesium oxide will first hydrate using mix water and then carbonate forming significant amounts of strength giving minerals in a low alkali matrix. TecEco cement including Eco-Cement are also very un reactive. The result is that many different wastes can be used as aggregates and fillers without problems. The reactive magnesium oxide used in Eco-Cements is currently made from magnesite (a carbonate compound of magnesium) found in abundance. In the Gaia Engineering tececology the magnesia required will be produced from seawater.
Eco-Cement is either carbon neutral except for process emissions which can be very low if non fossil fuel energy is used or negative (resulting in sequestration) if carbon capture occurs during manufacture as planned by TecEco. Given this production scenario Eco-Cement concretes have the capacity to become a huge carbon sink.
Eco-Cement CO2Release and Capture during Manufacture
The emissions of Eco-Cement are compared to other cements in the bar chart below prepared assuming capture during the manufacture of reactive magnesia in the manner shown in the above diagram.
Net Sequestration Typical Eco-Cement (Assuming Capture during Manufacture)
As stated by Fred Pearce in the article on Eco-Cement published in the New Scientist magazine  “There is a way to make our city streets as green as the Amazon Forest. Almost every aspect of the built environment from bridges to factories to tower blocks, and from roads to sea walls, could be turned into structures that soak up carbon dioxide – the main greenhouse gas behind global warming. All we need to do it is the change the way we make cement.”
The more magnesium oxide in an Eco-Cement and the more permeable it is, the more CO2 that is absorbed. The rate of absorption of CO2 varies with the degree of permeability. Carbonation occurs quickly at first and more slowly towards completion as in the above graph Eventually total carbonation occurs in permeable materials.
A typical Eco-Cement concrete block as in the graphic would be expected to fully carbonate within a year. Eco-Cement also has the ability to be almost fully recycled back into cement, should the concrete structure become obsolete.
Waste Utilisation in Eco-Cements
Eco-Cement can include more waste than other hydraulic cements like Portland cement because it is much less alkaline, reducing the incidence of delayed reactions that would reduce the strength of the concrete. Portland cement concretes on the other hand can’t include large amounts of waste as many of them will react with the alkaline lime that forms causes delayed and disruptive reactions.
Making the built environment a repository for recyclable resources (referred to as waste) as well as a huge carbon sink is an alternative that is both politically and economically viable.
We want governments to use the power of law to force people to mimic nature and build with carbon to save the planet.
 Imagination is more important than knowledge. Albert Einstein.
 John Harrison invented the word geomimicry in the same tradition of biomimicry to describe the way in which both Greensols and TecEco Eco-Cement mimic geological processes depositing CO2 as solid carbonate and using wastes as aggregate.
 If you are a government or altruistic billionaire then please get in touch with us! We need your resources as without them we are powerless!