Research Grant for Water Projects

http://www.winrock.org/JDR/

Multiple-Use Water Services to Reduce Poverty and Vulnerability to Climate Change
(Source: Mr. Jeffrey Apigian, Winrock International, US)

The John D. Rockefeller 3RD Scholars Program at Winrock International, with support from UNICEF India, invites concepts from mid-career Indian researchers for a two-year research grant on the topic: Multiple-Use Water Services to Reduce Poverty and Vulnerability to Climate Change. The winning team will receive up to US $150,000, as well as technical support and mentoring during the research project.

Planning grant concepts must be written in English and must address the research questions outlined in the request for concepts. Please refer to the planning grant application instructions when preparing your concept. These documents can be found at: www.winrock.org/JDRAsia

Planning grant concepts should be e-mailed to: JDR3MUS@winrock.org. Due date to submit planning grant concepts is January 19, 2009.

If you have questions about the application process, please e-mail Deepa Joshi at djoshi@winrock.org djoshi@winrock.org.

Innovative Economy Contest

I have entered Nualgi in a contest and you can vote for it by clicking on the button above.

Algae discussion forums

http://algae.empco.org/
This is a forum is for the purpose of algal research collaboration and discussion.
You may post and answer questions, exchange tips, meet other phycologists, etc..
If interested, please visit http://www.empco.org/algae/

Silica and Diatom Algae

http://www.highbeam.com/doc/1G1-111617410.html

Diatoms silica & industry: harnessing the biological methods of diatoms to make silica could offer a cheaper and less energy-intensive route to make silica. Harvey Black examines the advantages.
Article from: Chemistry and Industry Article date: December 1, 2003
Black, Harvey
* Understanding the way diatoms make silica could benefit industrial process
* In the past four years, two proteins in the manufacture of silica have been isolated
* In diatoms, sugars surrounding proteins key to assembly of silica structures
* Diatom genome project under way in US, sponsored by US Department of Energy
The lowly diatom may be the basis for major advances in manufacturing, These algae, of which there are between 10 000 to 100 000 species, form silica cell walls (frustules) of intricately patterned silica at ambient temperatures.
Silica is an important industrial product used in everyday items from toothpaste, as abrasives, ...

Manganese and Diatom Algae

http://www.pnas.org/content/64/2/472.abstract

DETERMINING FACTORS IN THE PRESENCE OF DIATOM OR BLUE-GREEN ALGAL FLORAS IN STREAMS
Ruth Patrick, Bowman Crum, and John Coles
LIMNOLOGY DEPARTMENT, ACADEMY OF NATURAL SCIENCES OF PHILADELPHIA, PENNSYLVANIA
Abstract

Diatoms are usually the major component of the algal flora in many streams, although green and blue-green algae may be present. These experiments were designed to determine if high temperature or a shift in the chemical composition of the water might bring about a dominance of blue-green algae and/or green algae rather than a dominance of diatoms in the algal flora.

The results of these experiments indicate that an average temperature of 34° to 38°C results in a shift of dominance in the algal flora from diatoms to blue-green algae. Furthermore, a blue-green and green algal flora of species typically found in organically polluted water in favored if the manganese content is a few parts per billion. If the manganese content averaged 0.02-0.043 mg/liter in the natural stream to 0.04-0.28 mg/liter in the recycled water experiment, a diatom flora remained dominant.

Use of Algae in Wastewater Treatment

Another technology that uses Green Algae in Wastewater Treatment.

http://www.algaewheel.com/algaewheel-technology.cfm

ALGAEWHEEL TECHNOLOGY
Product Development History. In 1995 Mr. Christopher Limcaco, began development of the algaewheel® technology because of his passion for aquatic life. His mission was to develop a filtration system that would allow him to completely recreate a natural environment within his aquarium. The system that was developed proved tremendously effective in achieving a naturally balanced eco-environment and the aquatic life within the aquarium thrived. Mr. Limcaco patented the technology and developed the manufacturing and shipping processes for the commercial distribution of algaewheel treatment systems through a company called Aquatic Engineers, Inc. In 2003 this technology was licensed to a firm now known as Aquariums By Design, and this company continues to provide service for hobby applications in the marine and tropical fish industry.

How it WorksThe technology was initially developed for use as an aquatic life support system in mariculture and aquaculture systems. The advantage of the algaewheel is in its name; it provides the proper environment for algal growth. Wave surging and light pulsing are basic environmental conditions required for algae growth and these are provided through the patented design. The wheel is designed to be significantly buoyant in water, requires no mechanical drive mechanism, and is rotated using a constant air flow. Each wheel is supported in water using a modular plastic grid system. The wheel and all components are made of UV stabilized reprocessed plastics, are lightweight, modular, easily assembled in the field, and corrosion proof.

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Why use Green Algae when Diatoms can do a better job?

Symbiotic algal bacterial wastewater treatment

Interesting study of use of Alage in Wastewater Treatment.
http://www.iwaponline.com/wst/05511/wst055110165.htm
Water Science & Technology Vol 55 No 11 pp 165–171 © IWA Publishing 2007 doi:10.2166/wst.2007.351

Symbiotic algal bacterial wastewater treatment: effect of food to microorganism ratio and hydraulic retention time on the process performance
M. Medina and U. NeisInstitute of Wastewater Management and Water Protection, University of Technology Hamburg Harburg, FSP 1-02, D-21071 , Hamburg, Germany (E-mail: marcela.medina@tuhh.de)
ABSTRACT
Algal incorporation into the biomass is important in an innovative wastewater treatment that exploits the symbiosis between bacterial activated sludge and microalgae (Chlorella vulgaris sp. Hamburg). It allows a good and easy algae separation by means of clarification. The effect of process parameters food to microorganisms ratio (F/M) and hydraulic retention time (HRT) on the process performance, evaluated by settleability, microalgae incorporation to biomass and nutrient removal, was studied. HRT hinted at a significant influence in the growth rate of algae, while F/M turned out to be important for stability when algae are incorporated into the biomass. This parameter also affects the total nitrogen removal of the treatment. Stable flocs with incorporated algae and supernatants with low free swimming algae concentrations were obtained at high HRT and low F/M values.
Keywords: Chlorella vulgaris; F/M (food to microorganism) ratio; hydraulic retention time; symbiotic algal bacterial wastewater treatment; symbiotic biomass