Where to best increase efficiency?

In summary, the conversation discusses various processes, mechanisms, and basic physics that could potentially increase efficiency for the world society. The topic of transport is mentioned as a major global problem due to energy use and emissions. The idea of utilizing natural processes, such as photosynthesis and the genome, is also brought up as a potential solution. Fuel cells are suggested as a specific mechanism with high thermodynamic potential, and the possibility of fusion as a source of non-destructive energy is mentioned. The conversation also touches on the concept of using plants as chemical factories and the need for a technique to detect and reject false ways of life.
  • #1
Loren Booda
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4
What processes, mechanisms or basic physics could experience an increase in efficiency best for world society?
 
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  • #2
..processes? Obviously they could nearly all experience an increase in efficiency, so I say transport. In principle, shuffling and relocating material requires zero energy. In practice, energy use and associated emissions arising from transport processes are a major global problem.

..specific mechanisms? If I had to pick one, then it would be fuel cells because I think they have far greater thermodynamic potential than the widespread combustion engines. (But, greater magnitude improvements could generally be obtained by changing to different mechanisms, rather than further optimising individual mechanisms. E.g., more rail.)

..basic physics? "What basic physics could experience an increase in efficiency?" Hmm. "What purple could experience an increase in saltiness?" Nope, that makes no sense, what was it supposed to mean?
 
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  • #3
cfrog,

I should have written "applications of basic physics."

Processes. I say utilization of natural processes, like photosynthesis and the genome, which evolution has tested and refined over billions of years.

Specific mechanisms. Fabrication of inexpensive computers for the Third World, toward a truer democracy, served up with plumpynut.

Applications of basic physics. Practical energy storage, as in clathrate hydrates like (H2)4CH4.

(Aside: will fusion ever work?)
 
  • #4
You mean of course non destructive fusion like the ITER in France or the NIF in California, and though some think a technique of a fusion over unity release every 5 minutes will not work, I say yes. Big bucks though.

The super capacitor or such that can store electrically as much energy as a tank of diesel fuel at the same weight, yes, that would be the berries especially if we get fusion electrics.

The ability to use plants as chemical factories is in its infancy.

We need an easy to use technique, acceptable and easily understood, that enables the detection and rejection of ways of life based on BS.
 
  • #5
minorwork said:
The ability to use plants as chemical factories is in its infancy.
If the chemicals you want are sugars, starch, vitamins etc then its infancy has lasted rather a long time.
 
  • #6
More like the ones here.
 

1. What methods can be used to increase efficiency in a scientific setting?

There are various methods that can be used to increase efficiency in a scientific setting, such as optimizing workflows, utilizing technology and automation, implementing time management strategies, and fostering a collaborative and organized work environment.

2. How can data analysis be used to identify areas for efficiency improvement?

Data analysis can be used to identify patterns and trends in workflow and productivity data, which can then be used to pinpoint areas for improvement and make data-driven decisions on how to increase efficiency.

3. What role does communication play in increasing efficiency?

Effective communication is crucial in increasing efficiency, as it allows team members to share information, coordinate tasks, and identify potential roadblocks. Regular communication also promotes transparency and collaboration, leading to a more efficient work environment.

4. Are there any potential drawbacks to increasing efficiency?

While increasing efficiency can have many benefits, there are also potential drawbacks to consider. For example, if efficiency is prioritized over quality, it can lead to errors and mistakes. Additionally, focusing solely on efficiency can sometimes hinder creativity and innovation.

5. How can efficiency be sustained over time?

Efficiency is not a one-time achievement, but an ongoing process. It is important to regularly review and reassess workflows, processes, and strategies to ensure that efficiency is maintained. Additionally, fostering a culture of continuous improvement and learning can help sustain efficiency over time.

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