Revision [1241]
Last edited on 2010-01-07 15:33:34 by FritsRinckerAdditions:
[[info@sunreign.com Feedback]]
Revision [1240]
Edited on 2010-01-07 15:33:05 by FritsRinckerAdditions:
[[http://www.seaweedbiomass.org/ Send us your items to post on SeaweedBiomass.org]]
Revision [1239]
Edited on 2010-01-07 15:31:47 by FritsRinckerAdditions:
====Capacity====
Deletions:
Revision [1238]
Edited on 2010-01-07 15:30:57 by FritsRinckerAdditions:
====Capacity===
Around Korea the seaweed Grateloupia anceolata is found to absorb [[http://www.korea.net/news/news/newsView.asp?serial_no=20070907028 155 microgram of CO2 per 1 square meter per second]]. This amounts to 1435 tons per annum per square mile at a productivity of 50%.
Around Korea the seaweed Grateloupia anceolata is found to absorb [[http://www.korea.net/news/news/newsView.asp?serial_no=20070907028 155 microgram of CO2 per 1 square meter per second]]. This amounts to 1435 tons per annum per square mile at a productivity of 50%.
Deletions:
Around Korea the seaweed Grateloupia anceolata is found to absorb 155 microgram of CO2 per 1 square meter per second.
Revision [1237]
Edited on 2010-01-07 15:29:55 by FritsRinckerAdditions:
====Capacity====
Around Korea the seaweed Grateloupia anceolata is found to absorb 155 microgram of CO2 per 1 square meter per second.
Around Korea the seaweed Grateloupia anceolata is found to absorb 155 microgram of CO2 per 1 square meter per second.
Revision [989]
Edited on 2009-12-29 11:32:00 by FritsRinckerAdditions:
""
""
The Offshore Ring
""The Offshore Ring
Revision [986]
Edited on 2009-12-29 11:30:19 by FritsRinckerAdditions:
[[http://www.sunreign.com/info/GoodIdeas Back to Index]]
[[http://www.sunreign.com/info/GoodIdeas004 Next]]
[[http://www.sunreign.com/info/GoodIdeas004 Next]]
Revision [973]
Edited on 2009-12-29 10:51:22 by FritsRinckerAdditions:
=====Agressive farming of seaweed which has multiple benfits and uses=====
Deletions:
Revision [971]
Edited on 2009-12-27 14:44:58 by FritsRinckerAdditions:
[[http://www.awi.de/de/forschung/neue_technologien/marine_aquaculture_maritime_technologies_and_iczm/research_themes/maritime_technologies/offshore_ring_system/ Offshore ring for farming]]
Revision [970]
Edited on 2009-12-27 14:37:18 by FritsRinckerAdditions:
From Techno-Economic Feasibility Analysis of Offshore Seaweed Farming for Bioenergy and Biobased Products
"If methods were perfected to farm seaweeds on 1% of the world’s 361 million km2 of ocean surface
area (Sverdrup et al., 1942), at production levels already achieved in large-scale coastal seaweed
farms in China [average yield approaching 10 metric ton of dry biomass per hectare per year,
(Chen, 2006), 3.5 billion metric ton dry weight of new biomass derived from seaweeds would be
produced annually. This could be processed into biofuels, animal feeds, industrial
polysaccharides, fertilizers and other co-products and would exceed by several-fold what is
projected to be available for biofuels from terrestrial biomass resources. The future cost of
production of energy from seaweeds is projected to be equivalent to that of energy crops like
sorghum and poplar (Chynoweth et al., 2001). Thus, overall, the potential for seaweeds
compares very favorably with terrestrial sources."
"If methods were perfected to farm seaweeds on 1% of the world’s 361 million km2 of ocean surface
area (Sverdrup et al., 1942), at production levels already achieved in large-scale coastal seaweed
farms in China [average yield approaching 10 metric ton of dry biomass per hectare per year,
(Chen, 2006), 3.5 billion metric ton dry weight of new biomass derived from seaweeds would be
produced annually. This could be processed into biofuels, animal feeds, industrial
polysaccharides, fertilizers and other co-products and would exceed by several-fold what is
projected to be available for biofuels from terrestrial biomass resources. The future cost of
production of energy from seaweeds is projected to be equivalent to that of energy crops like
sorghum and poplar (Chynoweth et al., 2001). Thus, overall, the potential for seaweeds
compares very favorably with terrestrial sources."
Revision [969]
Edited on 2009-12-27 14:31:42 by FritsRinckerAdditions:
[[http://www.offshoremariculture.com/ Offshore mariculture]]
Deletions:
Revision [968]
Edited on 2009-12-27 14:24:52 by FritsRinckerAdditions:
[[http://www.scribd.com/doc/16595766/Seaweed-Feasibility-Final-Report Study of offshore biomass]]
[[http://www.thefishsite.com/articles/474/offshore-aquaculture-in-the-united-states-economic-considerations-implications-opportunities Offshore aquaculture]]
[[http://www.thefishsite.com/articles/474/offshore-aquaculture-in-the-united-states-economic-considerations-implications-opportunities Offshore aquaculture]]
Revision [966]
Edited on 2009-12-27 12:13:36 by FritsRinckerAdditions:
8. It can be turned into [[http://www.investindk.com/visNyhed.asp?artikelID=19341 bioethanol]]
Deletions:
Revision [965]
Edited on 2009-12-27 12:13:16 by FritsRinckerAdditions:
8. It can be turned into bioethanol
Revision [964]
Edited on 2009-12-27 12:12:41 by FritsRinckerAdditions:
Agressive farming of seaweed which has multiple benfits and uses
To feed the growing plants that are planted against rafts that float in the phototropic zone one can use deep oceanic water that has all the nutrients.
To feed the growing plants that are planted against rafts that float in the phototropic zone one can use deep oceanic water that has all the nutrients.
