STAGE ONE
THE GEORGE BARLEY WATER PRIZE
Stage One of the competition was open to everyone, from top-tier universities doing cutting edge research to inventors working in their garage. 104 teams entered ideas, and offered their insights and inspirations on why they decided to embark on solving one of the most vexing challenges facing our planet.
​
​
In this stage the prize purse was $35,000 competitors were judged on
1. Performance indicators
2. Experiment description
3. Environmental outcome assessment
4. Overall presentation
​
Competitors were scored on
​
1. Phosphorus Removal
2. Environmental Sustainability
3. Overall Presentation
STAGE ONE
THE GEORGE BARLEY WATER PRIZE
Stage One of the competition was open to everyone, from top-tier universities doing cutting edge research to inventors working in their garage. 104 teams entered ideas, and offered their insights and inspirations on why they decided to embark on solving one of the most vexing challenges facing our planet.
​
​
In this stage the prize purse was $35,000 competitors were judged on
1. Performance indicators
2. Experiment description
3. Environmental outcome assessment
4. Overall presentation
​
Competitors were scored on
​
1. Phosphorus Removal
2. Environmental Sustainability
3. Overall Presentation
GRAND
CHALLENGE
THE GEORGE BARLEY WATER PRIZE
The final ‘Grand Challenge’ stage of the George Barley Water Prize will be the robust testing of contestants under field conditions in the Greater Everglades to validate whether these leading technologies can remove phosphorus from the Kissimmee River or a comparable water body under real conditions at significantly lower cost than currently possible.
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​
The 9 Pilot Phase teams will be narrowed down to the final four, who will move on to the final stage of the competition. Advancers will be announced in October 2018, in Toronto, during Canada’s Water Innovation Week. While Stage 3 asked teams to perform through snowmelt conditions, Stage 4 will require teams to demonstrate their ability to perform in subtropical conditions. Four teams will receive continuous flow, averaging 1 million gallons per day (gpd), with a variable spike of 4 million gallons per day, over the course of 14 months.
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​
A Grand Challenge winner will have demonstrated endurance in a range temperatures, proving their technology is globally applicable. With the support of the State of Florida’s Department of Environmental Protection and the St. John’s River Water Management District, the Grand Challenge will be hosted on the banks of Lake Jesup, in Oviedo, Florida.
In this stage the prize purse is a
$10 Million Grand Prize
$250,000 Secondary Prize
$170,000 Phoenix Prize
competitors are judged on
1. TP results from grand stage testing
2. Cost calculations
3. Background water characteristics
4. Waste disposal plan
5. Environmental outcome assessment
6. By-product recovery income plan
7. Twenty-page scalability plan
​
Competitors were scored on
​
1. Phosphorus Removal
2. Environmental Sustainability
3. Overall Presentation
GRAND
CHALLENGE
THE GEORGE BARLEY WATER PRIZE
The final ‘Grand Challenge’ stage of the George Barley Water Prize will be the robust testing of contestants under field conditions in the Greater Everglades to validate whether these leading technologies can remove phosphorus from the Kissimmee River or a comparable water body under real conditions at significantly lower cost than currently possible.
​
​
The 9 Pilot Phase teams will be narrowed down to the final four, who will move on to the final stage of the competition. Advancers will be announced in October 2018, in Toronto, during Canada’s Water Innovation Week. While Stage 3 asked teams to perform through snowmelt conditions, Stage 4 will require teams to demonstrate their ability to perform in subtropical conditions. Four teams will receive continuous flow, averaging 1 million gallons per day (gpd), with a variable spike of 4 million gallons per day, over the course of 14 months.
​
​
A Grand Challenge winner will have demonstrated endurance in a range temperatures, proving their technology is globally applicable. With the support of the State of Florida’s Department of Environmental Protection and the St. John’s River Water Management District, the Grand Challenge will be hosted on the banks of Lake Jesup, in Oviedo, Florida.
In this stage the prize purse is a
$10 Million Grand Prize
$250,000 Secondary Prize
$170,000 Phoenix Prize
competitors are judged on
1. TP results from grand stage testing
2. Cost calculations
3. Background water characteristics
4. Waste disposal plan
5. Environmental outcome assessment
6. By-product recovery income plan
7. Twenty-page scalability plan
​
Competitors were scored on
​
1. Phosphorus Removal
2. Environmental Sustainability
3. Overall Presentation
STAGE ONE
THE GEORGE BARLEY WATER PRIZE
Stage One of the competition was open to everyone, from top-tier universities doing cutting edge research to inventors working in their garage. 104 teams entered ideas, and offered their insights and inspirations on why they decided to embark on solving one of the most vexing challenges facing our planet.
​
​
In this stage the prize purse was $35,000 competitors were judged on
1. Performance indicators
2. Experiment description
3. Environmental outcome assessment
4. Overall presentation
​
Competitors were scored on
​
1. Phosphorus Removal
2. Environmental Sustainability
3. Overall Presentation
A HISTORY
Historically, The Everglades spanned from the Kissimmee Chain of Lakes, down to Lake Okeechobee, through the River of Grass, down to Florida Bay and the iconic Florida Keys. In the early 1900s, development in Florida began to boom, and in an effort to support the growing population and spur the growth of the agricultural community, the original flow was cut off, and the water originally flowing south from Lake Okeechobee was redirected East and West into the St. Lucie and Caloosahatchee estuaries.
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Today, this system is still in place, and nutrient pollution continues to make its way into the lake. When Lake Okeechobee rises during the wet season, the levees are opened and the polluted water is flushed in to the estuaries, tainting Florida’s freshwater supply and making its way into our coastal communities, while leaving the Everglades starved for freshwater.
Meanwhile, under the summer sun, the polluted waters that have flushed our coastal communities and estuaries grow warm. The high levels of sunlight coupled with extremely warm waters create a perfect breeding ground for Phosphorous and toxic algae begins to bloom, suffocating our marine life, impact our air quality and human health.