Talk:Main Page: Difference between revisions
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would be good to point to a definition and stress on what "interconnectedness" of villages means. [[User:Franz|Franz]] 05:12, 8 June 2009 (UTC) | would be good to point to a definition and stress on what "interconnectedness" of villages means. [[User:Franz|Franz]] 05:12, 8 June 2009 (UTC) | ||
== Combined Greenhouse/Solar and Biofuel powered steam generator/distiller system == | |||
This is all a brainstorm/pipedream in my head at this point, so criticism, suggestions, refinements, and complimentary ideas/links are welcome. | |||
All this talk of zero waste made me wonder why the combination of several elements to utilize waste streams hasn't been suggested. | |||
In a nutshell, the goal is to combine a solar concentrator with a biofuel boiler to ensure a consistent flow of steam which would exert it's work on a turbine generator. The biofuel exhaust would be directed into a greenhouse or bio-reactor, functioning as a CO2 generator. The feedstock for the boiler would either mix filtered graywater with rainwater, or would have a separate side for graywater, engineered to be easily cleaned. The steam line would be connected to a condenser/heat exchanger, and the distilled water used where needed or recycled back into the system. | |||
I figure you could work in some sort of still that takes advantage of waste heat to get ethanol for fuel, with an initial sustainable crop for feedstock. [http://en.wikipedia.org/wiki/Cellulosic_ethanol] | |||
'''TLDR Recap''' | |||
- A steam boiler heated by both solar concentrator and biofuel burner (with exhaust gas directed into a greenhouse or algae bioreactor, maybe both with algae being on the end). | |||
- Heat exchangers where feasible, excess heat used for ethanol still or anything needing heat (interior heating). | |||
- Modular, easily replicable design. Emphasis on flexibility, simplicity, and effectiveness at actually performing in effective amounts. | |||
- An initial pre/post processing area for lignocellulose to be converted and fermented and further distillation of the low-yield stills. | |||
- The combined stills will use the fermented lignocellulose to make low proof ethanol, which will be fed into the post process solar/biofuel powered still to finish concentrating the ethanol. | |||
---- | |||
'''Considerations and pitfalls''' | |||
* If it's even feasible or possible to do this. I'd imagine having to supplement the stills with more heat then the excess produced by the steam generator. | |||
* Figuring out the ratios, this includes a suitable crop for biomass for the stills and the land required, and if ethanol is even suitable. | |||
* Incorporating permaculture principles to the stock crops, and picking stock crops suitable for permaculture. | |||
* [http://en.wikipedia.org/wiki/Barton_Evaporation_Engine] This link is intriguing. Especially the bottom part talking about combining thermodynamic cycles. | |||
* A lot of different fields coming together. An expert in thermodynamics would do a lot to set me straight. | |||
* The design. I picture separate processes incorporated to capitalize on a waste chain. | |||
* Variations for different climates, ecologies, and other natural resources available. | |||
* What biofuel to incorporate into the system. Lignocellulose needs a pretreatment. Algae has a few breakthroughs to make before becoming practical. | |||
*** And of course, the cost. Being able to fabricate a majority of the parts would be a major plus. | |||
Revision as of 04:27, 16 June 2010
Notice
Please feel free to sign up and add information to the pages to help out!
Read more here..
- Maybe the front page should be more informational for someone completely new to the subject? By adding a few beginners "Read more here" it would be more enjoyable, or something like that. My 2 cents! --Fat64 16:42, 18 February 2009 (PST)
- The article "Evolve to freedom" seems like something not far from where I am getting. --Fat64 16:44, 18 February 2009 (PST)
Internationalization
As you probably know, Mediawiki the software you're using is the same as Wikipedia. So you can also use the multilanguage features used on Wikipedia. If you'll adopt that feature, each page could have a translation in a different language.
HTML disabled for non-sysops
- Looks like you have $wgRawHtml enabled on a publicall editable wiki. That is really dangerous, it's really an invitation to mischif. For embedding videos, use a specialized extension [1]. If you need full HTML every now and then, make sure it can only be defined by trusted people [2] [3]. -- Duesentrieb 20:56, 31 March 2009 (UTC)
I added an extention called nukeHTMLPHP that's supposed to remove any <eeeeeeehtml>html tags</eeeeeeehtml> in edits from non-sysop users (<-like that) while letting sysop users add the <eeeeeehtml>html tags</eeeeeehtml> (like this). So if anyone needs to use HTML then talk to a wikisysop to enable the html on a page or section. As long as a non-sysop doesn't edit an html section then it should keep working after users edit other sections. -jeremy
ideas for products
I was searching for a stainless steel spray bottle but only found a few links
- http://norbys.stores.yahoo.net/caststspbo11.html 10.99
- http://www.enailsupply.com/index.asp?PageAction=VIEWPROD&ProdID=15698 35.96
- http://www.bedbathandbeyond.com/product.asp?order_num=-1&SKU=11318517&RN=937 9.99
This is a very small niche market that OSE can capture when metal working comes online. LuciaStove
Global Villages
would be good to point to a definition and stress on what "interconnectedness" of villages means. Franz 05:12, 8 June 2009 (UTC)
Combined Greenhouse/Solar and Biofuel powered steam generator/distiller system
This is all a brainstorm/pipedream in my head at this point, so criticism, suggestions, refinements, and complimentary ideas/links are welcome.
All this talk of zero waste made me wonder why the combination of several elements to utilize waste streams hasn't been suggested.
In a nutshell, the goal is to combine a solar concentrator with a biofuel boiler to ensure a consistent flow of steam which would exert it's work on a turbine generator. The biofuel exhaust would be directed into a greenhouse or bio-reactor, functioning as a CO2 generator. The feedstock for the boiler would either mix filtered graywater with rainwater, or would have a separate side for graywater, engineered to be easily cleaned. The steam line would be connected to a condenser/heat exchanger, and the distilled water used where needed or recycled back into the system.
I figure you could work in some sort of still that takes advantage of waste heat to get ethanol for fuel, with an initial sustainable crop for feedstock. [4]
TLDR Recap
- A steam boiler heated by both solar concentrator and biofuel burner (with exhaust gas directed into a greenhouse or algae bioreactor, maybe both with algae being on the end).
- Heat exchangers where feasible, excess heat used for ethanol still or anything needing heat (interior heating).
- Modular, easily replicable design. Emphasis on flexibility, simplicity, and effectiveness at actually performing in effective amounts.
- An initial pre/post processing area for lignocellulose to be converted and fermented and further distillation of the low-yield stills.
- The combined stills will use the fermented lignocellulose to make low proof ethanol, which will be fed into the post process solar/biofuel powered still to finish concentrating the ethanol.
Considerations and pitfalls
- If it's even feasible or possible to do this. I'd imagine having to supplement the stills with more heat then the excess produced by the steam generator.
- Figuring out the ratios, this includes a suitable crop for biomass for the stills and the land required, and if ethanol is even suitable.
- Incorporating permaculture principles to the stock crops, and picking stock crops suitable for permaculture.
- [5] This link is intriguing. Especially the bottom part talking about combining thermodynamic cycles.
- A lot of different fields coming together. An expert in thermodynamics would do a lot to set me straight.
- The design. I picture separate processes incorporated to capitalize on a waste chain.
- Variations for different climates, ecologies, and other natural resources available.
- What biofuel to incorporate into the system. Lignocellulose needs a pretreatment. Algae has a few breakthroughs to make before becoming practical.
- And of course, the cost. Being able to fabricate a majority of the parts would be a major plus.