Epistemic status: a preliminary look at a possible cause area
TL;DR: Lake Kivu could erupt and kill 2 million people around it. But we could prevent this by installing oblique pipes, which will slowly and safely release gases and generate energy.
Large lake Kivu on the border between Rwanda and Democratic Republic of the Congo has a lot of gases dissolved near its bottom and it can erupt as lake Nyos did in 1986 when 1700 people were killed, but Kivu eruption could be 2000 times stronger.
A future overturn and gas release from the deep waters of Lake Kivu would result in catastrophe, dwarfing the historically documented lake overturns at the much smaller Lakes Nyos and Monoun. The lives of the approximately two million people who live in the lake basin area would be threatened.
An experimental vent pipe was installed at Lake Nyos in 2001 to remove gas from the deep water, but such a solution for the much larger Lake Kivu would be considerably more expensive. The approximately 510 million metric tons of carbon dioxide in the lake is a little under 2 percent of the amount released annually by human fossil fuel burning. Therefore, the process of releasing it could potentially have costs beyond simply building and operating the system. Wiki
A report Gas emissions from lake Kivu claims that lake Kivu has erupted in the past with a periodicity of 1000 years and could do it again in 100-200 years.
Lake Kivu has 65 cubic miles of methane (this is around 140 Mt and will produce additional methane concentrations increase of 28 ppb if released in the atmosphere, adding to the current level of around 1900 ppb). The lake also has 260 cubic miles of CO2.
Mitigation
Vertical pipes allow slowly extraction of gases from the lake and the collection of methane for energy use. Commercial extraction already started, but it is slow.
There are risks related to gas extraction via pipes:
Risk 1: what if the pipes will destabilise the lake?
Risk 2: releasing CO2 will contribute to global warming. Methane is even worse as a greenhouse gas, but it could be collected with profit. CO2 actually may be used too for fracking and for chemical and food production.
Concerns about these risks are slowing down current methane extraction. However, if the lake erupts, all methane and CO2 will go into the atmosphere and will be equal to several years of the Earth’s emissions, mostly because of short-term methane’s greenhouse effects. But a part of methane will be combusted in eruption.
The strong methane fire may take the form of an explosion which will contribute to gas release and to the devastation around the lake (total methane energy in the lake is around 1 gigaton TNT). However, explosive methane fire will prevent CO2 accumulation on lower grounds near the shores and CO2 suffocating effects will be smaller because gases will mix with the atmosphere quickly.
The project to reduce gases in the lake is ongoing, but its impact is not clear to me: it may not be enough to stop the increase of the gases’ concentration, which is still increasing, but could be enough to create risks of the eruption is something goes wrong (a pin and balloon effect). Especially because it is made for profit which creates an incentive to take higher risks. A much larger and simultaneously safer project is needed to prevent the eruption of the lake.
I think that the pipes should be built in a way that excludes increasing risk of eruption, maybe they should be very oblique. Vertical pipes could become seeds of degassing, as degassing already happens inside them, and if a tube is vertically raptured, the degassing stream of bubbles could expand. If the pipe is very oblique, almost horizontal, its rapture (presumably) will not create a vertical stream of gas bubbles. I guess that oblique venting pipes could cost tens of millions of USD.
Without pipes, the eruption is inevitable and has a 0.5-1 per cent yearly probability.
Therefore, the cost-effectiveness of the suggested project is around 10-100 dollars per saved life and may be more effective, as the lake catastrophe will be damaging to the whole of Central Africa, and safe methane extraction could generate profit. But we should also include in the calculation uncertainties and remote timing of the possible eruption.
What needs to be done:
- design and test tubes which can’t become seeds of degassing.
- gain the support of local communities and founders
- remove excess levels of gases
Lake Kivu lies on the border between Rwanda and Congo, and there is an active war there now. War could prevent any efforts to mitigate risks from the lake; moreover, war can cause eruption if thing lake depth charges will be used. A single sinking ship may create a column of bubbles which then will become self-reinforcing.
Cause prioritisation: Preventing lake Kivu in Africa eruption which could kill two million.
Epistemic status: a preliminary look at a possible cause area
TL;DR: Lake Kivu could erupt and kill 2 million people around it. But we could prevent this by installing oblique pipes, which will slowly and safely release gases and generate energy.
Large lake Kivu on the border between Rwanda and Democratic Republic of the Congo has a lot of gases dissolved near its bottom and it can erupt as lake Nyos did in 1986 when 1700 people were killed, but Kivu eruption could be 2000 times stronger.
A report Gas emissions from lake Kivu claims that lake Kivu has erupted in the past with a periodicity of 1000 years and could do it again in 100-200 years.
Lake Kivu has 65 cubic miles of methane (this is around 140 Mt and will produce additional methane concentrations increase of 28 ppb if released in the atmosphere, adding to the current level of around 1900 ppb). The lake also has 260 cubic miles of CO2.
Mitigation
Vertical pipes allow slowly extraction of gases from the lake and the collection of methane for energy use. Commercial extraction already started, but it is slow.
There are risks related to gas extraction via pipes:
Risk 1: what if the pipes will destabilise the lake?
Risk 2: releasing CO2 will contribute to global warming. Methane is even worse as a greenhouse gas, but it could be collected with profit. CO2 actually may be used too for fracking and for chemical and food production.
Concerns about these risks are slowing down current methane extraction. However, if the lake erupts, all methane and CO2 will go into the atmosphere and will be equal to several years of the Earth’s emissions, mostly because of short-term methane’s greenhouse effects. But a part of methane will be combusted in eruption.
The strong methane fire may take the form of an explosion which will contribute to gas release and to the devastation around the lake (total methane energy in the lake is around 1 gigaton TNT). However, explosive methane fire will prevent CO2 accumulation on lower grounds near the shores and CO2 suffocating effects will be smaller because gases will mix with the atmosphere quickly.
The project to reduce gases in the lake is ongoing, but its impact is not clear to me: it may not be enough to stop the increase of the gases’ concentration, which is still increasing, but could be enough to create risks of the eruption is something goes wrong (a pin and balloon effect). Especially because it is made for profit which creates an incentive to take higher risks. A much larger and simultaneously safer project is needed to prevent the eruption of the lake.
Oblique pipes
I think that the pipes should be built in a way that excludes increasing risk of eruption, maybe they should be very oblique. Vertical pipes could become seeds of degassing, as degassing already happens inside them, and if a tube is vertically raptured, the degassing stream of bubbles could expand. If the pipe is very oblique, almost horizontal, its rapture (presumably) will not create a vertical stream of gas bubbles. I guess that oblique venting pipes could cost tens of millions of USD.
Without pipes, the eruption is inevitable and has a 0.5-1 per cent yearly probability.
Therefore, the cost-effectiveness of the suggested project is around 10-100 dollars per saved life and may be more effective, as the lake catastrophe will be damaging to the whole of Central Africa, and safe methane extraction could generate profit. But we should also include in the calculation uncertainties and remote timing of the possible eruption.
What needs to be done:
- design and test tubes which can’t become seeds of degassing.
- gain the support of local communities and founders
- remove excess levels of gases
Lake Kivu lies on the border between Rwanda and Congo, and there is an active war there now. War could prevent any efforts to mitigate risks from the lake; moreover, war can cause eruption if thing lake depth charges will be used. A single sinking ship may create a column of bubbles which then will become self-reinforcing.