Carbon captured by Jesus!*- The Kingdom of God

*This title seemed appropriate given that Wikipedia says that the composition of the human body is made up of approx 18.5% Carbon (second most abundant element after Oxygen). As though to say, we are literally captured by Jesus! ūüėÄ

Carbon Capture is the¬†removal of carbon dioxide (CO2). In nature, these types of system are¬†preferably referred to as “carbon sinks”, such as the sea absorbing carbon dioxide to form carbonic acid and plants photosynthesising. “Carbon capture” refers more to the removal of carbon dioxide by some artificial means, so after burning fuels in an industrial power plant (post combustion removal), is just one example. This is important because the carbon dioxide released from these power plants contribute to the Greenhouse (or Blanket) effect causing Global Warming, so if carbon dioxide can be removed before entering the atmosphere then it is a really good thing.

There are numerous methods that scientists use/ propose for Carbon Capture and these can be found in section 4 of this review paper: For this blog post, we will stick to Polymeric Membranes and Solid Sorbents (these include zeolites, activated carbon and metal based sorbents (e.g. Calcium Oxide to form Limestone AKA Calcium Carbonate)).

The parable given by Jesus about the Sower in Matthew 13:3-9 is about four different types of people hearing and understanding the Kingdom of God. Essentially as Christians we must be sensitive to the Word of God- readily hearing and seeing (Matthew 3:16-17) and doing (James 1:22) the Word. For Jesus’ conclusion of this parable, please read Matthew 3:18-23. Lets explore this parable in a Carbon Capture context.

Behold a sower went out to sow (Matthew 13:3 ):

v.4 And as he sowed, some seed fell by the wayside; and the birds came and devoured them. This would obviously be the instance that no carbon dioxide is captured and there it goes out into the atmosphere, causing Global Warming.

Solid Sorbent: Activated Carbon. Image credited to:

v.5-6 Some fell on stony places, where they did not have much earth; and they immediately sprang up because they had no depth of earth. But when the sun was up they were scorched, and because they had no root they withered away. This is like Physisorption in Solid Sorbents (e.g. activated carbon and zeolites) where weak interactions are formed between the surface of these solids and the carbon dioxide molecules in the gas released from combustion (otherwise known as flue gas). This is all great if the surrounding temperature is low but when it gets too hot, the CO2 unbinds from the surface and is released (desorption). In reality this desorption is good for re-using the carbon dioxide (as in capturing CO2 and releasing it for use), but means that low operating temperatures are required, which is not the case in power plants unless the flue gas is cooled.

Polymeric Membranes. Image credited to: Membranes 2012, 2(4), 727-763; doi:10.3390/membranes2040727

v.7 And some fell among thorns, and the thorns sprang up and choked them.¬†Polymeric membranes are like this. As their ‘membrane’ name implies, they separate molecules by allowing particular molecules to pass through (permeability), generally with respect to their molecular size. Unfortunately, the channels which enable CO2¬†to pass through are also large enough for oxygen to fit (flue gas is composed of a variety of gases). Therefore, the resulting carbon captured gas is impure. The polymeric part (functional groups) on these membranes can work to increase selectivity of gas molecules by favouring some interaction with say CO2, however, generally as the selectivity increases, the permeability decreases.

Metal based solid sorbent: Calcium Oxide. Image credited to: “Wikimedia Commons”

v.8 But others fell on good ground and yielded a crop: some a hundredfold, some sixty, some thirty. There is not a perfect solution to Carbon Capture but one of the most effective methods of capture is through Chemisorption. Unlike Physisorption, strong bonds are made between the CO2 molecules and the solid surface (and even within the solid), to the point that a chemical reaction takes place. This happens for metal based solid sorbents such as calcium oxide, which forms limestone when reacted with carbon dioxide. The mechanism can take place at high temperatures and infact the loading of CO2 is increased with temperature. Unlike in this parable, regenerability of the metal based solid sorbent is not so easy due to the chemical reaction, so we cannot easily recycle this solid to capture carbon dioxide several-fold (i.e it has a low number of cycles)!

We should hope that the way we are captured by Jesus is as strong as Chemisorption. That we are chemically bound and as one with Him. That even when the temperature of trials and temptations increase, our interaction with Him increases also! Let us hear His Word, be bound to His Word so it never leaves us.







Leave a Reply

Fill in your details below or click an icon to log in: Logo

You are commenting using your account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s