Giant Floating Solar Farms Produce Fuel And Help Solve Climate Crisis?

17

October

2019

5/5 (1)

Oceanic solar farms pose a solution to convert carbon dioxide rich seawater into methanol, which can be used to help power the transport sector, notably long-distance vehicles such as airplanes. This is the key point made in a June report by the PNAS (Patterson, 2019). The futuristic farms are meant as a way to curb climate change, as the electricity produced by the solar panels would be used to split water molecules into hydrogen, which would react with CO2 extracted from the ocean to produce methanol. (Osbourne, 2019).

 

The floating mega structures described in the research are made up of large circular clusters of roughly seventy solar panel islands covering an area of around one square kilometer. A single structure should be capable of producing over 15,000 tons of methanol per annum, which equates to roughly 2.4M kilometers worth of aerial travel, or 300 round trips between New York and Phoenix (Davidson, 2019). Methanol is a cleaner alternative to today’s kerosene and the CO2 released from its combustion would ultimately return to the ocean, where the same farms could reuse it, thus completing the cycle.

 

The authors of the study argue that this method will address the challenges of transitioning into commercially viable green energy, allowing renewable energies to compete quicker with their fossil counterparts. The idea for energy producing islands is not a new one, and has been explored historically, e.g. self-sustaining Norwegian fishing farms (Andrews, 2019 ). However, including the capability to store energy on site served as the missing link that the study includes for a more holistic solution.

 

Stanford’s Mark Jakobson (Jacobson, 2012) argues against the holistic presentation held by the research paper;

“Some people think the only problem in the world is to reduce carbon dioxide, but the problem is air pollution, energy security and carbon emissions. You have to solve all three of those problems together. This is a solution to a very narrow aspect of the problem, so to me, the idea is misplaced.” He continues to call the utilisation of solar farms for methanol production a ‘’roundabout way of doing things, particularly since methanol is not a widely used fuel source.’’ Other opponents of the idea state that the idea of floating solar farms is not a bad one, but that using it for fuel is suboptimal, and that the produced electricity is much better off used for different purposes. Other practical objections arise around plant maintenance in an oceanic environment, and how this could be done at scale (Chow, 2019).

 

What strikes me most about all of this is the complete omission of the net benefit of any of these structures, and whether it is even desirable to create a hybrid solution that potentially further extends the shelf life of fossil fuel dominant industries. The production, transportation, installation, and upkeep of huge floating solar farms seems to be something that should not be underestimated and would potentially entail a supply chain where the emitted CO2 could quickly outstrip the perceived mid to long term benefits of the solution. Yet there is no mention of this in the report or any of the surrounding interviews. Also the aquamarine repercussions of deploying the farms at scale enjoy zero practical mention. Technically the solution seems innovative, but realistic assessment seems to have been skipped in favor of a strong headline that allows us to merrily continue our consumer lifestyle.

Bibliography

Andrews, S. (2019 ). The Fish Site . Retrieved from The aquaculture pioneers who are embracing the renewable energy revolution: https://thefishsite.com/articles/the-aquaculture-pioneers-who-are-embracing-the-renewable-energy-revolution

Chow, D. (2019). How floating solar farms could make fuel and help solve the climate crisis. Retrieved from NBC News: https://www.nbcnews.com/mach/science/how-floating-solar-farms-could-make-fuel-help-solve-climate-ncna1020336

Davidson, J. (2019). Giant Floating Solar Farms Could Make Fuel and Help Solve the Climate Crisis, Says Study. Retrieved from EcoWatch: https://www.ecowatch.com/trump-panel-national-parks-business-2640990773.html?rebelltitem=1

Jacobson, M. (2012). Air pollution and global warming . Retrieved from Stanford University : https://web.stanford.edu/group/efmh/jacobson/POLbook2/index.html

Osbourne, H. (2019). GIANT FLOATING ISLANDS THAT TURN ATMOSPHERIC CO2 INTO FUEL COULD PREVENT CLIMATE CHANGE, SCIENTISTS SAY. Retrieved from Newsweek: https://www.newsweek.com/giant-floating-islands-that-turn-atmospheric-co2-fuel-could-prevent-climate-change-scientists-say-1441793

Patterson, B. (2019). Renewable CO2 recycling and synthetic fuel production in a marine environment. Retrieved from PNAS : https://www.pnas.org/content/116/25/12212

 

 

 

 

 

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Automatic Listening Exploitation Act (ALExA) seeks to fine companies $40k per unauthorized recording.

22

September

2019

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Recent years have shown an increasing number of smart speakers purchased for consumer use (Fisher, 2019). These handy devices allow you access to various commands and features via voice activation. However, the devices are not without controversy. What started with advertisements triggering the device’s functionality to purchase goods off popular e-tailers like Amazon, through command words, (Sweney, 2018) later led to various accusations of infringing on people’s personal lives, with disconcerting stories about how the device eavesdropped on and recorded personal conversations, to later share with others (Shaban, 2018).

The latter point has led to the recent filing of the Automatic Listening Exploitation Act (Govtrack, 2019), which, if passed, would fine companies $40k for each unauthorized recording performed by the smart home device that they produced. The act seems to bring a heavy financial incentives to companies in order to prevent them from acting without their user’s permission. The bill also allows customers to demand their recordings are deleted from the company’s archives.

The bill requires:
‘’(i)first providing to the user of the smart speaker when the speaker is first set up for use a clear and conspicuous notice, set off from other text in any user agreement, of the specific purpose or purposes described in subparagraph (A);
(ii)first obtaining the express consent of the user for that specific purpose; and
(iii)permitting the user of the smart speaker to require the deletion of any recording or transcript of any speech or sound captured by a smart speaker of such user at any time.’’ (Govtrack, 2019)

It rapidly becomes clear that the potential effectiveness of the bill depends on how consent is expressed, and looking at exemptions (Govtrack, 2019) such as ‘’improving the speech recognition and natural language understanding of the voice-user interface’’, it seems that these companies will have a generous amount of freedom to record and exploit user audio data.

The majority of people seem to be of the opinion that one should not purchase a smart-home device unless he/she is comfortable with the potential of being recorded; one has to trade security for convenience. A terms of service agreement that we see for many other services that leverage consumer data would be easily implemented. However, it would introduce a new gray area represented by all the other people in your personal life that might visit your house. What happens when you gave consent, but your family members did not? It would be difficult to argue that everybody entering a space has to check for smart home devices and otherwise remove themselves from the area. It will be very interesting to see how people continue to interact with these devices, and whether they will become a new socially unaccepted items like the first smart glasses (Gibbs, 2014), or whether they remain the cool centerpiece of the modern home.

References

Fisher, B. (2019). NPR Report: Smart Speakers See 78% Increase YOY. NPR. Retrieved from:

https://www.npr.org/about-npr/682946406/npr-report-smart-speakers-see-78-increase-yoy?t=1569155049112

Sweney, M. (2018). Hey Alexa, is it true a TV advert made Amazon Echo order cat food? The guardian. Retrieved from:

https://www.theguardian.com/technology/2018/feb/14/amazon-alexa-ad-avoids-ban-after-viewer-complaint-ordered-cat-food

Shaban, H. (2018). An Amazon Echo recorded a family’s conversation, then sent it to a random person in their contacts, report says. The Washington post. Retrieved from:
https://www.washingtonpost.com/news/the-switch/wp/2018/05/24/an-amazon-echo-recorded-a-familys-conversation-then-sent-it-to-a-random-person-in-their-contacts-report-says/

Govtrack. (2019). H.R. 4048: Automatic Listening Exploitation Act of 2019. Govtrack. Retrieved form:
https://www.govtrack.us/congress/bills/116/hr4048

Govtrack. (2019). H.R. 4048: Automatic Listening Exploitation Act of 2019. Govtrack. Retrieved form: https://www.govtrack.us/congress/bills/116/hr4048/text/ih#link=2_a_2_A&nearest=H43EE88363990461089655A9E19FB921B

Gibbs, S. (2014). Google Glass review: useful – but overpriced and socially awkward. The guardian. Retrieved from:

https://www.theguardian.com/technology/2014/dec/03/google-glass-review-curiously-useful-overpriced-socially-awkward

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