D-Factory,

a four-year collaborative project funded by

the
European Commission's FP7,
aims
to build a

Dunaliella biorefinery. D-Factory launch, a

four-year collaborative
project funded by the
European Commission's

Seventh Framework Program, which aims

to build a biorefinery with the... biotechnology microalgae D-Factory project aims to set biorefinery world benchmark | A4F

D-Factory,

a four-year collaborative project funded by the European Commission's FP7,

aims

to build

a Dunaliella biorefinery. D-Factory launch, a four-year collaborative
project
funded by the
European Commission's Seventh Framework Program, which aims to build a

biorefinery with

the... biotechnology microalgae D-Factory project aims to set biorefinery world benchmark |

A4F

D-Factory,
a four-year collaborative project
funded by

the European Commission's FP7, aims to build a Dunaliella

biorefinery. D-Factory launch, a

four-year collaborative project funded

by the European Commission's Seventh Framework Program,

which

aims to build a biorefinery with the... biotechnology microalgae D-Factory project aims to set biorefinery world benchmark |

A4F

D-Factory, a

four-year collaborative project funded by the European Commission's FP7, aims

to build a Dunaliella biorefinery. D-Factory

launch,

a four-year collaborative project funded by the European Commission's Seventh Framework

Program, which aims to build a biorefinery

with the...

biotechnology microalgae

D-Factory project aims to set biorefinery

world benchmark | A4F

D-Factory,

a four-year collaborative project funded by the European Commission's FP7, aims

to build a
Dunaliella biorefinery. D-Factory launch, a four-year collaborative project funded by the European Commission's Seventh Framework Program, which aims to build a biorefinery with the... biotechnology microalgae D-Factory project aims to set biorefinery world benchmark | A4F

D-Factory, a four-year collaborative project funded by

the European Commission's FP7, aims to build a Dunaliella biorefinery. D-Factory launch, a four-year collaborative project funded by the European Commission's Seventh
Framework Program, which

aims to

build

a biorefinery with the... biotechnology

microalgae D-Factory project aims to set biorefinery world benchmark | A4F
D-Factory, a
four-year collaborative project funded
by the European Commission's FP7, aims to build a Dunaliella biorefinery. D-Factory launch, a four-year collaborative project funded by the European Commission's Seventh Framework Program, which aims to build a biorefinery with the... biotechnology microalgae D-Factory project aims to set biorefinery world
benchmark | A4F

D-Factory, a four-year collaborative project funded by the European Commission's

FP7, aims to build a Dunaliella biorefinery. D-Factory launch, a four-year collaborative project
funded by the European Commission's Seventh Framework Program, which aims to build a biorefinery with the... biotechnology microalgae D-Factory project aims to set biorefinery world benchmark | A4F
D-Factory, a four-year collaborative project
funded by the European Commission's FP7, aims
to build a Dunaliella biorefinery. D-Factory launch, a four-year collaborative project funded by the European Commission's
Seventh Framework Program, which aims to build a biorefinery with the... biotechnology microalgae D-Factory project
aims

to set biorefinery world benchmark | A4F

D-Factory, a four-year collaborative project funded by the European

Commission's FP7, aims to build a Dunaliella biorefinery. D-Factory launch, a four-year collaborative project funded by the European Commission's Seventh Framework Program, which aims

to build a biorefinery with the... biotechnology microalgae D-Factory project aims to set biorefinery world benchmark | A4F

D-Factory project aims to set biorefinery world benchmark

D-Factory, a four-year collaborative project funded by the European Commission's FP7, aims to build a Dunaliella biorefinery.

D-Factory launch, a four-year collaborative project funded by the European Commission's Seventh Framework Program, which aims to build a biorefinery with the Dunaliella microalgae. This microalgae will serve as a sustainable raw material for the creation of products with added value.

Full Article Transcript below:

D-Factory project aims to set biorefinery world benchmark

The University of Greenwich is leading a €10m international project, called the ‘D-Factory,’ to build a biorefinery to develop the microalga Dunaliella as a sustainable raw material and turn every part of the alga into something useful.

Project leader Professor Pat Harvey, from the university’s Faculty of Engineering & Science, said, “The race is on to develop a broader spectrum of compounds from algae, which can be turned into high-value products including food and medicines. If we can make algae biorefineries commercially viable, we will have developed a new industry founded on an environmentally-kind raw material which is also sustainable. The potential is huge.”

The research brings together 13 research institutions and businesses from eight countries, including world-leading experts in the biochemistry of Dunaliella, in large-scale cultivation of microalgae, in novel harvesting technologies and in bioprocessing development.

Together they aim to set a world benchmark for a biorefinery based on microalgae. Plans include the largest commercial cultivation of the single-cell organisms, in water raceways, lakes and photobioreactors.

The project “hopes to demonstrate” the business case for global investment in algae biorefineries, and in large-scale production of microalgae within three years, in order to raise investment for the first prototype D-Factory in Europe.

The Dunaliella alga has been chosen because it produces a wide range of compounds, appropriate for the ‘biorefinery’ concept, which aims to use every element of a biomass. It can cope with extreme conditions, from salt caves in the Antarctic, to salt pans in the tropics. The high salinity and light intensity turns the microalgae orange by producing protective carotenoids. The pink-orange of many salt lakes containing Dunaliella is intensified by the presence of archaea, fellow single-celled organisms.

The D-Factory, or CO2 algae biorefinery, is a four-year collaborative project with funding from the European Union’s FP7 Cooperation Work Programme.

The 13 D-Factory partners include:
Universities and research institutes: University of Greenwich, UK; National Technical University of Athens, Greece; Institute for Energy and Environmental Research Heidelberg, Germany; Marine Biological Association, UK. Small and medium enterprises (SMEs): A4F AlgaFuel S.A., Portugal; Nature Beta Technologies, Israel; SPTechnical Research Institute of SwedenDynamic Extractions, UK; NateCO2, Germany; Instituto de Biologia Experimental e Tecnologica, Portugal; Evodos, Netherlands; Hafren Investments, UK; IN, Italy.

About What Company History Resources Culture collection Industrial production Approach Microalgae track

record Technological

Platforms Services Consultancy services Technical services

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Powered BYDAS About
What Company History

Resources Culture Collection Industrial production Approach

Technological Platforms Microalgae Track Record Services Consultancy Services Technical Services Training Projects Projects Projects News Contacts Factory project aims biorefinery world benchmark Factory four year collaborative project funded European Commission's aims build Dunaliella biorefinery

Factory launch four year collaborative project funded European Commission's Seventh Framework Program

which aims build
biorefinery with Dunaliella microalgae This
microalgae

will serve sustainable material creation products with added value Full Article

Transcript below: Factory project

aims biorefinery

world benchmark University Greenwich

leading €10m international

project called ‘D

Factory ’ build biorefinery
develop microalga  Dunaliella  as sustainable
material turn

every part alga into

something useful

Project leader  Professor Harvey

from
university’s Faculty Engineering Science said “The race develop broader spectrum compounds from algae which turned into high value products including food medicines
make algae biorefineries

commercially viable will have developed industry founded environmentally kind material which also sustainable potential huge research brings together research institutions businesses from eight countries including world leading experts

biochemistry

of  Dunaliella

large scale cultivation
microalgae

novel harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans include largest commercial cultivation single cell organisms water raceways lakes photobioreactors project “hopes demonstrate” business case global investment algae biorefineries

large scale

production microalgae

within three years order raise investment first

prototype Factory Europe The  Dunaliella

 alga been

chosen because produces wide range compounds

appropriate ‘biorefinery’ concept which aims
every element
biomass cope with
extreme conditions from salt caves Antarctic salt pans tropics
high salinity light intensity turns microalgae orange producing protective carotenoids pink orange many salt lakes containing  Dunaliella  is intensified presence archaea fellow single celled organisms Factory  algae biorefinery four year collaborative project with funding from
European Union’s

Cooperation Work Programme

Factory partners include:
Universities research institutes:  University Greenwich UK;  National Technical University Athens

Greece;  Institute Energy Environmental

Research  Heidelberg Germany;  Marine Biological Association Small medium enterprises SMEs AlgaFuel Portugal;  Nature Beta Technologies Israel;  SPTechnical Research Institute Sweden Dynamic Extractions UK;  NateCO2

Germany;  Instituto Biologia

Experimental Tecnologica Portugal;  Evodos Netherlands;  Hafren Investments UK;  Italy Algae

future Rights Resevered Home

About Services Contacts Privacy Policy Terms Factory four year collaborative project funded European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative project funded European Commission's Seventh Framework Program which aims

build biorefinery with biotechnology microalgae Factory project aims biorefinery world benchmark Factory four
year collaborative project
funded European

Commission's aims build

Dunaliella biorefinery

Factory launch four

year collaborative project funded

European Commission's Seventh Framework Program which aims build

biorefinery

with Dunaliella microalgae This microalgae will serve sustainable material creation products with added value Full Article Transcript below:

Factory
project aims biorefinery world benchmark University Greenwich leading €10m international project called ‘D Factory ’ build biorefinery develop microalga Dunaliella as sustainable
material turn every part alga

into something useful Project leader Professor Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from algae which turned into high value products

including food

medicines make algae biorefineries
commercially viable will have developed industry founded environmentally kind material which also sustainable
potential huge research brings together research institutions businesses from eight countries including world leading experts
biochemistry

of Dunaliella large scale

cultivation microalgae
novel harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans include largest commercial cultivation single
cell organisms water raceways lakes

photobioreactors project “hopes demonstrate”

business case

global investment algae

biorefineries

large scale production

microalgae within three years order raise investment first prototype Factory

Europe
The Dunaliella alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims every element biomass cope with extreme conditions from

salt caves

Antarctic

salt pans tropics high salinity light intensity turns microalgae orange

producing

protective carotenoids pink orange many salt lakes containing Dunaliella is intensified presence archaea fellow

single

celled organisms Factory CO2 algae biorefinery four year

collaborative

project with funding from European

Union’s Cooperation Work

Programme Factory partners include:
Universities research

institutes: University

Greenwich UK; National Technical University Athens Greece; Institute Energy

Environmental Research Heidelberg Germany; Marine Biological Association Small medium enterprises SMEs : A4F AlgaFuel Portugal; Nature

Beta Technologies Israel; SPTechnical Research Institute Sweden; Dynamic Extractions UK; NateCO2 Germany; Instituto Biologia Experimental

Tecnologica Portugal; Evodos Netherlands; Hafren Investments UK; IN Italy

About What Company History Resources Culture

collection Industrial production Approach Microalgae track record Technological
Platforms Services

Consultancy services Technical

services
Training Projects Projects Projects News Contacts ©2018 Algae future Rights Reserved Powered BYDAS
About What Company History

Resources Culture Collection Industrial production Approach Technological Platforms Microalgae Track Record Services Consultancy Services Technical Services

Training Projects Projects Projects News Contacts
Factory

project aims biorefinery world

benchmark Factory four year collaborative

project funded European

Commission's aims build

Dunaliella biorefinery Factory launch
four

year collaborative

project funded European Commission's Seventh Framework Program which aims build biorefinery with Dunaliella microalgae This microalgae will serve sustainable material creation

products with added value Full Article

Transcript below: Factory

project aims

biorefinery world
benchmark University Greenwich leading
€10m

international project

called ‘D Factory ’ build
biorefinery

develop microalga 

Dunaliella  as

sustainable material turn every part alga into something

useful

Project leader  Professor Harvey from university’s Faculty Engineering Science said “The

race develop broader

spectrum compounds from

algae
which turned into high value products including food
medicines make algae

biorefineries commercially viable will have developed industry

founded environmentally kind
material which also sustainable potential huge research brings together research institutions businesses
from eight

countries including world leading experts biochemistry

of 

Dunaliella large scale cultivation microalgae novel harvesting

technologies bioprocessing development Together they world benchmark

biorefinery based microalgae Plans include largest commercial cultivation single

cell
organisms water
raceways
lakes photobioreactors project “hopes
demonstrate”

business case global investment

algae biorefineries large scale production microalgae within three years order raise investment first prototype Factory Europe

The  Dunaliella  alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims every element biomass cope with extreme conditions from

salt caves

Antarctic salt pans tropics high salinity light intensity turns microalgae orange producing protective carotenoids pink orange many salt lakes containing 

Dunaliella

 is intensified presence archaea fellow single celled organisms Factory  algae biorefinery four

year

collaborative project with funding from European Union’s Cooperation Work Programme Factory partners include:
Universities research institutes:  University Greenwich UK;  National Technical University Athens Greece;  Institute Energy Environmental Research  Heidelberg Germany;  Marine Biological Association

Small medium enterprises SMEs AlgaFuel Portugal;  Nature Beta Technologies Israel;  SPTechnical Research Institute Sweden Dynamic Extractions UK;  NateCO2 Germany;  Instituto Biologia Experimental Tecnologica Portugal;  Evodos Netherlands;  Hafren Investments UK;  Italy Algae
future Rights

Resevered Home About Services Contacts Privacy Policy Terms Factory four year collaborative project funded European Commission's aims build Dunaliella biorefinery

Factory launch four year collaborative project funded European Commission's Seventh Framework

Program which aims build
biorefinery with

biotechnology microalgae Factory project aims biorefinery world benchmark Factory four year collaborative project funded

European

Commission's aims build Dunaliella biorefinery Factory

launch four year collaborative project funded European Commission's

Seventh Framework Program which aims build biorefinery with Dunaliella microalgae This microalgae will serve sustainable material creation products with added value Full Article Transcript below: Factory project aims biorefinery world benchmark University Greenwich

leading
€10m international project called ‘D Factory ’

build biorefinery

develop microalga Dunaliella as sustainable
material turn every part alga into something useful Project leader Professor
Harvey
from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from algae which turned into high
value products including food

medicines make algae biorefineries commercially viable will have developed industry founded environmentally kind material which also sustainable potential huge research brings together research institutions businesses from eight countries including

world leading experts biochemistry of Dunaliella large scale cultivation microalgae novel

harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans include largest commercial

cultivation single cell organisms water raceways lakes photobioreactors project “hopes demonstrate”

business case global investment algae biorefineries large scale production microalgae within three years order raise investment first prototype
Factory

Europe The Dunaliella alga been chosen

because produces wide

range compounds appropriate ‘biorefinery’ concept

which aims every element biomass cope with extreme conditions from salt caves Antarctic salt pans tropics high salinity light intensity turns microalgae orange producing protective carotenoids pink orange many salt lakes containing Dunaliella is intensified presence archaea fellow single celled organisms Factory
CO2 algae

biorefinery four

year collaborative project with funding from European Union’s Cooperation Work Programme Factory partners include:
Universities research institutes: University Greenwich UK; National Technical University Athens Greece; Institute Energy Environmental Research Heidelberg Germany; Marine Biological Association

Small medium enterprises SMEs

: A4F AlgaFuel Portugal; Nature Beta Technologies Israel; SPTechnical Research Institute Sweden; Dynamic

Extractions UK; NateCO2 Germany; Instituto
Biologia Experimental Tecnologica Portugal; Evodos Netherlands; Hafren Investments UK; IN Italy
About
What Company History Resources Culture collection Industrial production Approach Microalgae track record Technological Platforms

Services Consultancy services Technical services Training Projects Projects Projects News

Contacts ©2018 Algae future Rights Reserved Powered BYDAS About What Company History Resources Culture Collection Industrial production Approach Technological Platforms Microalgae Track Record Services Consultancy Services Technical Services Training Projects Projects Projects

News

Contacts Factory project aims biorefinery world benchmark Factory four year collaborative project funded European Commission's aims

build Dunaliella biorefinery Factory launch four year collaborative project funded European Commission's Seventh Framework Program which aims build biorefinery with Dunaliella microalgae This microalgae will serve sustainable material creation products with added value Full Article Transcript below: Factory project aims biorefinery world benchmark University Greenwich leading €10m international project called ‘D Factory ’ build biorefinery develop microalga  Dunaliella  as sustainable material turn every
part alga into something

useful Project leader  Professor Harvey from university’s Faculty Engineering

Science said “The race
develop broader spectrum compounds
from

algae which turned into high value products including food

medicines make algae biorefineries commercially viable will have developed industry founded environmentally

kind material which also sustainable

potential huge research brings together research institutions businesses from eight countries including world leading experts biochemistry of  Dunaliella large scale cultivation microalgae

novel
harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans
include

largest commercial cultivation single cell organisms water raceways lakes photobioreactors project “hopes demonstrate” business

case global investment algae biorefineries large scale
production microalgae within

three years order raise investment first prototype Factory Europe The  Dunaliella  alga been chosen because produces wide range compounds appropriate

‘biorefinery’ concept which aims every element

biomass cope with extreme conditions from salt caves Antarctic salt

pans tropics high salinity light intensity turns microalgae orange producing protective carotenoids pink orange many salt

lakes containing  Dunaliella  is

intensified presence archaea fellow single celled organisms Factory  algae biorefinery four

year collaborative project with funding from European Union’s Cooperation Work Programme Factory partners include:
Universities research institutes:  University Greenwich
UK; 

National Technical University Athens Greece;  Institute Energy Environmental Research  Heidelberg Germany;  Marine Biological Association Small medium enterprises SMEs AlgaFuel Portugal;  Nature Beta

Technologies Israel; 

SPTechnical Research

Institute Sweden

Dynamic Extractions UK; 

NateCO2 Germany; 
Instituto Biologia Experimental
Tecnologica Portugal;  Evodos Netherlands;  Hafren Investments UK; 

Italy Algae future

Rights Resevered Home About Services Contacts Privacy Policy Terms Factory four
year

collaborative project funded

European Commission's aims
build Dunaliella biorefinery

Factory launch

four year collaborative project funded European

Commission's Seventh Framework Program

which aims build biorefinery with biotechnology microalgae Factory project aims biorefinery world benchmark Factory four

year collaborative
project funded European
Commission's aims
build Dunaliella biorefinery
Factory launch four year collaborative project funded European Commission's Seventh Framework Program which aims build

biorefinery with Dunaliella microalgae This

microalgae
will serve sustainable material creation products with added value Full Article Transcript below: Factory project aims biorefinery world benchmark University Greenwich leading €10m international project
called ‘D Factory ’ build biorefinery develop microalga Dunaliella as sustainable material turn every part alga into something useful Project leader Professor Harvey from university’s Faculty
Engineering

Science said “The race develop broader spectrum

compounds

from algae which turned into high value products

including

food medicines make algae biorefineries

commercially viable
will have developed industry
founded environmentally kind material which also

sustainable potential huge research brings together research institutions businesses from eight countries including world leading experts biochemistry of Dunaliella large

scale cultivation microalgae

novel harvesting technologies bioprocessing development Together they world benchmark

biorefinery based

microalgae

Plans include

largest commercial cultivation

single cell organisms water raceways lakes photobioreactors project “hopes demonstrate” business

case

global investment algae

biorefineries large

scale production microalgae

within

three years

order raise investment first prototype Factory Europe The Dunaliella alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims every element

biomass
cope with extreme conditions
from salt

caves Antarctic salt pans tropics high

salinity
light intensity turns microalgae orange
producing protective carotenoids pink orange many salt lakes containing Dunaliella is intensified

presence archaea fellow

single celled organisms Factory CO2 algae biorefinery four year collaborative

project
with funding from
European Union’s Cooperation Work Programme

Factory partners include:
Universities research institutes: University Greenwich UK; National

Technical

University Athens Greece; Institute Energy Environmental Research Heidelberg Germany; Marine Biological Association Small medium enterprises SMEs : A4F AlgaFuel Portugal; Nature Beta Technologies

Israel; SPTechnical

Research Institute Sweden; Dynamic Extractions UK; NateCO2 Germany; Instituto Biologia

Experimental Tecnologica Portugal; Evodos Netherlands; Hafren Investments UK; IN Italy
About
What Company History Resources Culture collection Industrial production Approach Microalgae track record Technological
Platforms Services

Consultancy services Technical services

Training Projects Projects Projects News Contacts ©2018 Algae future Rights

Reserved

Powered BYDAS About What Company History Resources Culture Collection Industrial production Approach Technological Platforms Microalgae Track Record Services Consultancy Services Technical Services Training Projects Projects Projects News Contacts Factory project aims biorefinery world benchmark Factory four year collaborative project

funded European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative project funded

European Commission's Seventh Framework Program which aims build biorefinery with Dunaliella

microalgae This microalgae will serve sustainable material creation products with added value Full Article Transcript below: Factory project aims biorefinery world benchmark University Greenwich leading €10m international project called ‘D Factory ’
build biorefinery develop microalga 
Dunaliella  as sustainable material turn every part alga into something useful Project
leader  Professor

Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from algae which turned

into high
value
products including food
medicines make algae biorefineries commercially viable will have
developed industry founded environmentally
kind material

which also sustainable potential huge research

brings together research institutions businesses from eight countries including world

leading experts
biochemistry of  Dunaliella large

scale cultivation microalgae novel harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans include largest commercial cultivation single cell organisms water raceways lakes photobioreactors

project “hopes demonstrate” business case
global investment algae biorefineries large scale production microalgae within three years order raise investment first prototype Factory Europe The  Dunaliella

 alga been chosen because produces

wide

range compounds appropriate ‘biorefinery’ concept

which aims every element

biomass cope

with extreme conditions from salt

caves Antarctic salt pans tropics high salinity light intensity turns microalgae orange producing protective carotenoids pink orange

many salt lakes containing  Dunaliella  is
intensified presence archaea fellow single celled organisms Factory  algae biorefinery
four year collaborative project with funding from European Union’s Cooperation Work Programme Factory partners include:
Universities research institutes:  University Greenwich
UK;  National Technical

University Athens Greece;  Institute Energy Environmental Research

 Heidelberg Germany;  Marine Biological Association Small medium enterprises SMEs

AlgaFuel

Portugal;  Nature Beta Technologies Israel;  SPTechnical Research Institute Sweden Dynamic Extractions UK;  NateCO2 Germany; 

Instituto
Biologia Experimental Tecnologica Portugal;  Evodos Netherlands; 
Hafren Investments

UK;  Italy Algae future

Rights Resevered Home About Services Contacts Privacy Policy Terms Factory four year collaborative project funded European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative project funded European

Commission's Seventh Framework

Program

which aims build biorefinery with biotechnology microalgae Factory project aims biorefinery world benchmark Factory four year collaborative

project funded European Commission's aims build

Dunaliella biorefinery Factory launch four year collaborative project funded European Commission's Seventh

Framework
Program which aims build biorefinery with Dunaliella
microalgae
This microalgae will
serve sustainable material creation products
with

added value Full Article Transcript

below: Factory project
aims biorefinery
world benchmark

University Greenwich leading €10m international project

called
‘D Factory ’ build
biorefinery

develop microalga Dunaliella as sustainable material turn every part alga into something

useful

Project leader Professor Harvey from university’s Faculty

Engineering Science
said “The race develop broader spectrum compounds from algae which turned into
high

value products including food medicines make algae biorefineries commercially viable will have developed industry founded environmentally kind material which also sustainable potential huge research brings together research institutions businesses from eight countries including world leading experts biochemistry of Dunaliella large scale cultivation microalgae

novel
harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans include largest commercial cultivation single cell organisms water raceways lakes photobioreactors project “hopes demonstrate”
business

case global investment algae biorefineries large scale production microalgae within three

years order raise investment first prototype Factory Europe The Dunaliella alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims
every element
biomass cope
with extreme conditions from

salt caves

Antarctic salt pans tropics high salinity light intensity turns microalgae orange producing protective
carotenoids

pink orange many salt lakes

containing Dunaliella is intensified presence archaea

fellow single celled organisms

Factory CO2 algae biorefinery
four year collaborative project with funding from European Union’s Cooperation Work Programme
Factory partners include:
Universities research
institutes: University Greenwich UK; National Technical University

Athens Greece; Institute Energy Environmental Research Heidelberg Germany; Marine

Biological Association Small medium enterprises SMEs : A4F AlgaFuel Portugal; Nature Beta Technologies Israel; SPTechnical Research Institute Sweden; Dynamic Extractions UK; NateCO2 Germany; Instituto Biologia Experimental
Tecnologica Portugal; Evodos Netherlands; Hafren Investments UK; IN Italy

About What Company History

Resources
Culture collection Industrial production Approach Microalgae track record Technological Platforms Services Consultancy

services Technical services Training Projects

Projects Projects
News Contacts ©2018 Algae future Rights
Reserved Powered

BYDAS About What Company History Resources Culture Collection Industrial production Approach Technological Platforms Microalgae Track Record Services Consultancy Services Technical Services Training Projects

Projects Projects

News Contacts Factory project aims biorefinery world benchmark

Factory four
year collaborative project funded European Commission's aims build Dunaliella biorefinery

Factory launch four year collaborative project funded European Commission's Seventh Framework Program which aims build biorefinery with Dunaliella microalgae This microalgae will serve sustainable material creation products with added value Full Article Transcript below: Factory project

aims biorefinery world benchmark University Greenwich leading €10m international project called ‘D Factory ’ build biorefinery develop microalga  Dunaliella  as sustainable material turn every part alga into something useful Project leader  Professor Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from algae which turned into high value products including food medicines make
algae
biorefineries commercially viable will have developed industry founded environmentally kind material which also sustainable potential
huge research
brings together research institutions businesses from eight
countries
including world leading experts biochemistry of 
Dunaliella
large scale cultivation microalgae

novel harvesting technologies bioprocessing development Together they world benchmark

biorefinery based microalgae Plans include largest commercial cultivation single cell organisms water raceways lakes photobioreactors project “hopes demonstrate” business case global investment
algae

biorefineries large scale production microalgae within three years order raise investment first prototype Factory Europe The  Dunaliella  alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept

which

aims every element biomass cope with extreme conditions from salt caves Antarctic salt pans tropics high salinity light intensity turns microalgae orange producing protective carotenoids pink orange many salt lakes containing  Dunaliella  is intensified

presence archaea fellow single celled organisms Factory  algae biorefinery four year collaborative

project with funding from European Union’s Cooperation Work Programme Factory
partners include:
Universities research

institutes:  University Greenwich UK;  National Technical University Athens Greece;  Institute Energy Environmental Research  Heidelberg Germany; 

Marine Biological Association Small medium enterprises SMEs AlgaFuel
Portugal;  Nature Beta Technologies Israel;  SPTechnical Research
Institute Sweden Dynamic Extractions UK;  NateCO2 Germany;  Instituto Biologia Experimental Tecnologica Portugal;  Evodos Netherlands;  Hafren Investments UK;  Italy Algae future Rights Resevered Home

About Services Contacts Privacy Policy Terms

Factory four year

collaborative project funded European Commission's

aims build Dunaliella biorefinery
Factory launch four year collaborative project funded European Commission's Seventh Framework Program which aims build biorefinery with
biotechnology microalgae Factory project aims

biorefinery world benchmark Factory four year collaborative

project funded
European Commission's aims

build Dunaliella biorefinery Factory launch

four year collaborative project funded European Commission's Seventh Framework Program which aims build

biorefinery with Dunaliella microalgae This microalgae will serve sustainable material creation products with added

value Full Article Transcript below: Factory project aims biorefinery world

benchmark University Greenwich leading €10m international

project called ‘D Factory ’ build biorefinery

develop

microalga Dunaliella as sustainable material turn every part alga into something useful

Project leader Professor

Harvey from

university’s Faculty Engineering Science

said “The race develop broader spectrum compounds from algae which turned into high value products including

food
medicines make algae

biorefineries commercially viable

will have developed industry founded environmentally kind material which also sustainable potential huge research brings together research institutions
businesses

from eight

countries including

world leading experts biochemistry of Dunaliella

large scale cultivation microalgae novel harvesting technologies

bioprocessing development Together they world
benchmark
biorefinery based microalgae Plans include

largest commercial cultivation single cell organisms

water raceways lakes photobioreactors project “hopes demonstrate” business case global investment

algae biorefineries large scale production microalgae within three years order raise investment first prototype Factory Europe The Dunaliella alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims every element

biomass cope with extreme conditions from salt caves Antarctic salt pans tropics

high salinity light intensity turns microalgae orange producing protective carotenoids pink orange many salt lakes containing Dunaliella is intensified presence archaea fellow single celled organisms Factory

CO2 algae biorefinery four year

collaborative project with funding

from European

Union’s Cooperation Work Programme Factory partners

include:
Universities research institutes: University Greenwich UK; National Technical University Athens Greece; Institute Energy Environmental Research Heidelberg Germany; Marine Biological Association Small medium enterprises SMEs : A4F AlgaFuel Portugal; Nature Beta Technologies Israel; SPTechnical Research

Institute Sweden; Dynamic Extractions

UK; NateCO2 Germany; Instituto Biologia Experimental Tecnologica

Portugal; Evodos Netherlands; Hafren Investments
UK; IN
Italy

About What Company History Resources Culture collection Industrial production

Approach Microalgae track

record Technological Platforms Services Consultancy services Technical services Training Projects Projects Projects News Contacts ©2018 Algae future Rights Reserved Powered BYDAS About What Company

History Resources Culture Collection Industrial production Approach Technological Platforms Microalgae Track Record Services Consultancy Services Technical Services

Training

Projects Projects

Projects News Contacts Factory project aims biorefinery world benchmark Factory four year collaborative project funded European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative project funded European Commission's Seventh Framework Program which

aims build biorefinery

with Dunaliella

microalgae This microalgae will serve sustainable material creation products with added value Full Article Transcript below: Factory project aims biorefinery world benchmark University Greenwich

leading €10m
international project
called ‘D Factory ’ build
biorefinery

develop microalga  Dunaliella  as sustainable material turn every

part alga into

something useful Project leader  Professor Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from

algae
which turned into high value products including food medicines make algae biorefineries commercially viable will have developed industry founded environmentally kind material which
also sustainable potential huge research brings together research institutions businesses from eight countries including world leading experts biochemistry of  Dunaliella large scale cultivation microalgae novel harvesting

technologies bioprocessing development Together they world

benchmark biorefinery

based microalgae Plans include largest commercial

cultivation single cell organisms
water raceways lakes photobioreactors project “hopes demonstrate”

business case global investment algae biorefineries large scale production microalgae within three years order raise investment first prototype Factory Europe The 

Dunaliella  alga been chosen because produces wide range compounds appropriate
‘biorefinery’
concept which aims every
element biomass cope

with extreme conditions from

salt caves Antarctic salt pans tropics

high salinity light intensity

turns microalgae orange producing protective carotenoids pink orange many salt lakes containing 

Dunaliella  is

intensified presence archaea fellow single celled organisms Factory  algae

biorefinery four

year collaborative project with funding from European Union’s Cooperation Work Programme Factory

partners
include:
Universities research institutes:  University Greenwich UK;  National Technical University Athens Greece;  Institute Energy Environmental Research  Heidelberg Germany;  Marine Biological Association
Small medium
enterprises SMEs AlgaFuel Portugal;  Nature Beta Technologies Israel;  SPTechnical
Research

Institute Sweden Dynamic Extractions UK;  NateCO2 Germany;  Instituto Biologia Experimental Tecnologica Portugal;  Evodos Netherlands;  Hafren Investments

UK;  Italy Algae

future Rights Resevered Home About

Services Contacts Privacy Policy Terms Factory

four year collaborative project funded European

Commission's aims

build Dunaliella biorefinery Factory launch four year collaborative project funded European Commission's Seventh Framework Program which aims build biorefinery with biotechnology microalgae Factory project aims biorefinery world benchmark Factory four year collaborative project funded European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative project funded

European Commission's Seventh Framework Program which aims
build biorefinery with Dunaliella microalgae This microalgae will serve sustainable material creation products with added value Full Article

Transcript below: Factory project aims

biorefinery world benchmark University Greenwich

leading €10m international project called ‘D Factory ’ build biorefinery develop microalga Dunaliella as sustainable material turn every part alga into something useful Project leader Professor Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from algae which

turned

into high value

products including food medicines make algae biorefineries commercially viable

will have developed industry founded environmentally kind material

which

also sustainable potential huge research brings together research institutions businesses from eight countries including world

leading experts biochemistry
of Dunaliella large scale cultivation microalgae

novel harvesting

technologies bioprocessing development Together

they world benchmark biorefinery based microalgae

Plans include largest commercial cultivation single cell organisms

water raceways lakes photobioreactors project

“hopes
demonstrate” business case global investment algae biorefineries large scale production

microalgae within three years order raise investment first prototype Factory Europe

The Dunaliella alga been
chosen because produces wide
range compounds

appropriate ‘biorefinery’

concept which

aims every element
biomass cope with
extreme conditions from salt caves Antarctic salt
pans tropics

high salinity light

intensity turns microalgae orange producing
protective

carotenoids pink orange many salt

lakes containing Dunaliella is intensified presence archaea fellow single celled organisms Factory CO2 algae biorefinery four year collaborative project with funding from European Union’s Cooperation Work Programme

Factory partners include:
Universities research institutes: University Greenwich UK; National Technical University Athens Greece; Institute Energy Environmental Research Heidelberg Germany; Marine Biological Association

Small medium enterprises SMEs : A4F AlgaFuel Portugal; Nature Beta Technologies Israel; SPTechnical Research Institute Sweden; Dynamic Extractions UK; NateCO2 Germany; Instituto Biologia Experimental Tecnologica Portugal; Evodos Netherlands; Hafren Investments UK; IN Italy
About

What Company History Resources Culture collection Industrial production Approach Microalgae

track

record Technological Platforms Services Consultancy services Technical services

Training Projects Projects Projects News Contacts ©2018 Algae future

Rights
Reserved Powered BYDAS About What Company History Resources Culture Collection Industrial production Approach Technological Platforms Microalgae Track Record Services Consultancy Services Technical
Services Training Projects Projects Projects News Contacts Factory project aims biorefinery world benchmark
Factory
four year collaborative project funded European Commission's aims build Dunaliella biorefinery
Factory launch four year collaborative project funded European Commission's Seventh Framework Program which aims build biorefinery with Dunaliella microalgae This microalgae will serve sustainable material creation products with added value Full Article Transcript

below: Factory project

aims biorefinery

world benchmark University Greenwich leading €10m international

project called ‘D Factory ’ build biorefinery develop microalga  Dunaliella
 as

sustainable material turn every part alga into

something

useful Project leader  Professor Harvey

from
university’s Faculty Engineering Science said “The race
develop
broader spectrum compounds from
algae

which turned into high value products including food medicines make algae biorefineries commercially viable will have developed industry founded environmentally kind material which also sustainable potential huge research brings together research institutions businesses from eight countries including world leading experts biochemistry of  Dunaliella large scale

cultivation microalgae novel harvesting technologies bioprocessing development Together they world

benchmark biorefinery based microalgae

Plans include largest commercial cultivation single cell organisms water raceways lakes

photobioreactors project “hopes

demonstrate” business case global investment algae biorefineries large scale production microalgae within three years order raise investment first prototype Factory Europe The  Dunaliella  alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims every element biomass cope with extreme conditions from salt caves

Antarctic
salt pans tropics high salinity
light

intensity turns microalgae orange producing protective carotenoids pink orange many salt

lakes containing 
Dunaliella  is intensified presence archaea fellow single
celled

organisms Factory  algae biorefinery four year collaborative project with funding from European Union’s Cooperation Work Programme Factory partners include:
Universities research institutes:  University Greenwich

UK;  National Technical University Athens Greece;  Institute Energy Environmental Research  Heidelberg Germany;  Marine Biological Association Small medium enterprises SMEs AlgaFuel Portugal;  Nature Beta Technologies Israel;  SPTechnical Research Institute

Sweden Dynamic Extractions UK;  NateCO2 Germany;  Instituto Biologia Experimental Tecnologica Portugal;  Evodos Netherlands;  Hafren Investments UK;  Italy Algae future Rights Resevered Home About Services Contacts Privacy Policy Terms Factory

four year

collaborative project

funded European Commission's aims build Dunaliella biorefinery Factory

launch four
year collaborative project funded European Commission's Seventh Framework Program which aims build biorefinery with biotechnology microalgae Factory project aims biorefinery world benchmark Factory four year collaborative project funded European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative project funded European Commission's Seventh Framework Program which aims build biorefinery with Dunaliella microalgae This microalgae will serve
sustainable
material creation products with
added

value Full Article Transcript below: Factory

project aims biorefinery

world
benchmark University Greenwich leading
€10m international

project called

‘D Factory ’

build biorefinery develop microalga Dunaliella as

sustainable material turn every part alga into
something useful
Project

leader Professor Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from algae which

turned

into high value products

including
food medicines make algae biorefineries commercially viable will have developed industry
founded environmentally kind material which also sustainable potential huge research brings together
research

institutions businesses from eight countries including

world leading

experts

biochemistry of Dunaliella large scale cultivation microalgae novel harvesting technologies bioprocessing development Together they world benchmark biorefinery

based microalgae Plans

include largest commercial cultivation single cell organisms water raceways lakes photobioreactors project “hopes demonstrate” business case global investment algae biorefineries large scale production microalgae within three years order raise investment first prototype Factory Europe The Dunaliella alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims every element biomass cope with extreme conditions from salt caves Antarctic salt pans tropics high salinity light intensity turns microalgae

orange producing protective carotenoids

pink
orange many salt lakes containing Dunaliella is intensified presence archaea fellow single celled organisms Factory CO2 algae biorefinery four year collaborative project with funding from
European Union’s Cooperation Work Programme Factory partners include:
Universities research institutes: University Greenwich UK; National Technical University Athens Greece; Institute Energy Environmental Research Heidelberg Germany; Marine Biological
Association Small medium enterprises SMEs : A4F AlgaFuel Portugal; Nature Beta Technologies Israel; SPTechnical Research

Institute Sweden; Dynamic Extractions UK; NateCO2 Germany; Instituto Biologia Experimental Tecnologica Portugal; Evodos Netherlands; Hafren Investments UK; IN Italy

About What Company History Resources Culture collection Industrial production Approach Microalgae track record Technological Platforms

Services

Consultancy services

Technical services Training Projects Projects Projects News Contacts

©2018

Algae future Rights Reserved Powered BYDAS

About What
Company History Resources Culture Collection Industrial production Approach

Technological Platforms Microalgae Track Record Services Consultancy Services

Technical

Services Training Projects Projects Projects News Contacts Factory project aims biorefinery world benchmark Factory four year collaborative project funded European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative

project funded European

Commission's Seventh Framework Program which aims build biorefinery with Dunaliella microalgae This microalgae will serve sustainable material

creation products with added value Full Article Transcript below: Factory project aims biorefinery world benchmark University Greenwich leading €10m international project called ‘D Factory ’ build biorefinery develop

microalga  Dunaliella

 as sustainable

material turn

every part alga into

something useful Project leader  Professor Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum

compounds from algae which

turned into high
value products including food medicines make algae biorefineries commercially viable
will
have developed industry founded environmentally kind
material which also sustainable potential
huge research brings together research institutions businesses from eight countries including world leading
experts

biochemistry of  Dunaliella large scale cultivation microalgae novel harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans

include

largest commercial cultivation single cell organisms water

raceways lakes photobioreactors project

“hopes demonstrate” business case global

investment
algae biorefineries large scale production microalgae within three
years order raise investment first prototype

Factory Europe The  Dunaliella  alga been chosen because produces wide range compounds appropriate ‘biorefinery’

concept which aims every element biomass cope with extreme conditions
from

salt caves Antarctic salt pans tropics high salinity light intensity turns microalgae orange producing

protective
carotenoids pink orange many
salt
lakes containing  Dunaliella  is intensified presence archaea fellow single celled organisms Factory  algae biorefinery four year collaborative project with funding
from European Union’s

Cooperation Work Programme Factory partners include:
Universities research

institutes:  University Greenwich UK;  National Technical University

Athens Greece;  Institute Energy Environmental Research  Heidelberg Germany;  Marine Biological Association

Small medium

enterprises SMEs AlgaFuel

Portugal;  Nature Beta Technologies Israel;  SPTechnical Research Institute Sweden Dynamic Extractions UK;  NateCO2 Germany;  Instituto

Biologia Experimental Tecnologica Portugal;  Evodos Netherlands;  Hafren Investments UK;  Italy Algae future Rights Resevered Home About Services Contacts Privacy Policy Terms Factory four year collaborative project funded European
Commission's aims build Dunaliella biorefinery Factory launch four year collaborative project funded European Commission's Seventh Framework

Program which aims build biorefinery with

biotechnology microalgae Factory project
aims biorefinery world benchmark Factory four year collaborative project
funded European Commission's aims build Dunaliella biorefinery Factory

launch four year collaborative project funded European Commission's Seventh Framework Program which aims build biorefinery with Dunaliella

microalgae This microalgae will serve sustainable
material creation

products with added value Full

Article Transcript
below: Factory project aims biorefinery world benchmark University Greenwich leading €10m international project called ‘D Factory ’ build biorefinery develop microalga Dunaliella as sustainable material turn every part alga into something useful Project leader Professor Harvey from university’s Faculty Engineering Science said “The
race develop broader spectrum compounds

from algae which turned

into high value products including
food medicines make algae biorefineries commercially viable will

have developed

industry founded
environmentally kind material which also sustainable potential huge research brings together research
institutions businesses

from eight countries

including world leading experts

biochemistry of Dunaliella large scale cultivation microalgae novel harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans include largest commercial cultivation

single cell

organisms water raceways lakes photobioreactors project “hopes demonstrate” business case global investment

algae

biorefineries large scale production microalgae within three years order raise investment first

prototype Factory
Europe The Dunaliella alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims every element biomass cope with extreme conditions from salt caves Antarctic salt pans tropics
high salinity light intensity turns

microalgae orange

producing

protective carotenoids pink

orange many salt lakes containing Dunaliella is intensified
presence

archaea fellow single celled organisms Factory CO2 algae biorefinery four

year
collaborative project with funding from European Union’s Cooperation Work Programme Factory partners include:
Universities research institutes: University Greenwich UK; National Technical University Athens Greece; Institute Energy Environmental Research Heidelberg Germany; Marine Biological Association Small medium enterprises SMEs
: A4F AlgaFuel Portugal; Nature
Beta Technologies Israel; SPTechnical Research Institute Sweden; Dynamic Extractions UK; NateCO2 Germany; Instituto Biologia Experimental Tecnologica Portugal; Evodos Netherlands; Hafren Investments UK; IN Italy

About What Company History Resources Culture collection Industrial production Approach Microalgae track

record Technological Platforms Services
Consultancy

services Technical services Training Projects Projects Projects

News Contacts

©2018 Algae future Rights Reserved Powered BYDAS About What Company History Resources Culture Collection

Industrial production Approach

Technological Platforms Microalgae

Track Record Services Consultancy Services

Technical Services

Training Projects Projects Projects

News Contacts Factory
project aims

biorefinery world benchmark Factory four

year collaborative
project

funded European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative project funded European

Commission's Seventh

Framework Program which aims build biorefinery with

Dunaliella microalgae

This microalgae will serve sustainable material creation products

with added value Full Article Transcript below: Factory project aims biorefinery world

benchmark

University Greenwich leading €10m

international project called ‘D Factory ’ build biorefinery develop microalga  Dunaliella  as sustainable

material
turn every part alga into something useful Project leader  Professor Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from

algae which turned into

high
value products including food medicines make algae
biorefineries commercially viable will
have developed industry founded environmentally kind material which also sustainable potential huge research brings together research institutions businesses from eight

countries including world leading experts

biochemistry of 

Dunaliella
large scale cultivation
microalgae novel
harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans include largest commercial cultivation single cell
organisms water raceways lakes photobioreactors project “hopes demonstrate”
business

case global investment algae biorefineries

large scale
production microalgae within three years order raise investment first prototype Factory Europe The  Dunaliella  alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims every element biomass cope with extreme conditions from salt caves Antarctic salt pans tropics high salinity light
intensity turns microalgae orange
producing protective carotenoids
pink orange many

salt lakes containing  Dunaliella  is intensified presence archaea fellow single celled organisms Factory  algae biorefinery four year collaborative project with funding from European Union’s Cooperation Work Programme Factory partners include:
Universities research institutes:  University Greenwich UK;  National Technical University Athens Greece;  Institute Energy Environmental Research

 Heidelberg Germany;  Marine Biological Association Small medium enterprises SMEs AlgaFuel Portugal;  Nature Beta Technologies Israel; 

SPTechnical Research Institute Sweden Dynamic Extractions UK;  NateCO2 Germany;  Instituto Biologia Experimental Tecnologica Portugal;  Evodos Netherlands;  Hafren Investments UK;  Italy

Algae future Rights Resevered Home About Services Contacts Privacy Policy Terms Factory four year collaborative project funded European Commission's aims build Dunaliella
biorefinery
Factory launch four year collaborative project funded European Commission's Seventh Framework Program which aims build biorefinery with biotechnology microalgae

Factory project aims biorefinery world benchmark Factory

four year collaborative project funded European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative
project funded European

Commission's Seventh Framework Program which aims build biorefinery

with Dunaliella microalgae This microalgae will serve sustainable material creation products with added value Full Article Transcript below: Factory project aims biorefinery
world benchmark University Greenwich leading €10m international project called ‘D Factory ’ build biorefinery develop
microalga Dunaliella as sustainable material turn every part alga
into something useful
Project leader Professor Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from algae
which

turned into high value products including food medicines make algae biorefineries commercially viable will have developed industry founded environmentally kind material which

also

sustainable potential huge research brings

together
research institutions businesses
from

eight countries including world leading experts biochemistry of Dunaliella large scale cultivation microalgae novel harvesting technologies bioprocessing development

Together
they world benchmark biorefinery based microalgae Plans include largest commercial cultivation single cell organisms water raceways lakes photobioreactors project “hopes demonstrate” business case global investment algae

biorefineries large scale production microalgae within three years order raise investment first prototype Factory

Europe

The Dunaliella alga been chosen because produces wide range compounds

appropriate ‘biorefinery’
concept which aims every element biomass cope with extreme conditions from salt caves Antarctic salt pans tropics high salinity light intensity turns microalgae

orange producing protective carotenoids pink orange many salt lakes containing Dunaliella is intensified

presence archaea fellow single

celled organisms Factory CO2 algae biorefinery four year collaborative project with funding from European Union’s Cooperation Work Programme Factory

partners include:
Universities research institutes: University

Greenwich UK; National Technical University Athens Greece; Institute Energy Environmental Research Heidelberg Germany; Marine Biological Association Small medium
enterprises
SMEs : A4F AlgaFuel Portugal; Nature Beta Technologies
Israel; SPTechnical Research Institute Sweden; Dynamic Extractions UK; NateCO2 Germany; Instituto Biologia Experimental Tecnologica Portugal; Evodos Netherlands; Hafren Investments UK; IN Italy
About What Company

History Resources Culture collection Industrial production Approach Microalgae track record Technological Platforms Services Consultancy services

Technical services Training Projects Projects Projects News Contacts

©2018 Algae future Rights Reserved Powered BYDAS About What Company History Resources Culture

Collection Industrial

production Approach

Technological
Platforms Microalgae Track Record Services Consultancy Services Technical Services Training Projects Projects Projects News Contacts Factory project

aims biorefinery world benchmark Factory four

year collaborative project
funded European
Commission's

aims build Dunaliella biorefinery Factory launch four year collaborative project funded European Commission's Seventh Framework Program

which aims build biorefinery with Dunaliella

microalgae
This microalgae will serve sustainable material creation products
with added value Full Article Transcript below: Factory project aims biorefinery world benchmark University Greenwich
leading €10m international project called ‘D Factory ’ build biorefinery develop microalga  Dunaliella  as sustainable material

turn every part alga into

something useful Project leader  Professor

Harvey from university’s Faculty Engineering Science said “The race develop

broader spectrum compounds from algae which turned into high value products including food medicines make algae biorefineries

commercially viable will have developed industry founded environmentally kind material which also sustainable potential huge research brings together research institutions

businesses from eight countries including world leading experts biochemistry of  Dunaliella large scale cultivation microalgae novel harvesting technologies bioprocessing development Together they world benchmark biorefinery based microalgae Plans include largest commercial cultivation single cell organisms water raceways lakes photobioreactors project

“hopes

demonstrate” business case global

investment

algae biorefineries large

scale production microalgae

within three years

order raise investment first

prototype Factory Europe The  Dunaliella

 alga

been chosen

because produces wide

range compounds appropriate ‘biorefinery’ concept which aims every element biomass cope

with extreme conditions from salt

caves Antarctic salt pans tropics high salinity light intensity turns microalgae orange producing protective carotenoids pink orange many salt lakes containing  Dunaliella  is intensified presence archaea fellow single celled organisms Factory  algae biorefinery four year collaborative project with funding from European Union’s Cooperation Work Programme Factory partners include:
Universities research institutes:  University Greenwich UK;  National Technical

University Athens

Greece; 
Institute Energy Environmental Research  Heidelberg Germany;  Marine Biological Association Small medium enterprises
SMEs
AlgaFuel Portugal;  Nature Beta Technologies Israel;  SPTechnical Research Institute
Sweden Dynamic Extractions

UK;  NateCO2 Germany;  Instituto Biologia Experimental Tecnologica Portugal;  Evodos Netherlands;  Hafren Investments UK;  Italy Algae future Rights Resevered Home About Services

Contacts
Privacy Policy Terms Factory four year collaborative project
funded
European Commission's aims build Dunaliella biorefinery Factory launch four year collaborative project funded

European Commission's Seventh

Framework Program which aims

build biorefinery with biotechnology

microalgae

Factory project aims biorefinery world benchmark Factory four year collaborative project funded European Commission's aims build

Dunaliella biorefinery Factory launch four year collaborative project funded European Commission's Seventh Framework

Program which aims build biorefinery with Dunaliella microalgae
This microalgae will serve sustainable material creation products with added value Full Article Transcript below: Factory project aims biorefinery world benchmark University Greenwich leading €10m international project

called ‘D Factory ’ build biorefinery develop microalga Dunaliella as sustainable material turn every part alga into something useful Project leader Professor Harvey from university’s Faculty Engineering Science said “The race develop broader spectrum compounds from algae which turned into high value products including food medicines make algae biorefineries commercially viable will have developed industry founded environmentally kind material which also

sustainable
potential huge research brings

together research

institutions businesses from eight countries including world leading experts biochemistry of Dunaliella large scale cultivation microalgae novel harvesting technologies bioprocessing development
Together they

world benchmark biorefinery based microalgae Plans

include largest

commercial cultivation single cell organisms water raceways lakes photobioreactors project “hopes demonstrate” business case global investment algae biorefineries large

scale production microalgae within three years order raise investment first prototype Factory Europe The Dunaliella alga been chosen because produces wide range compounds appropriate ‘biorefinery’ concept which aims every element biomass cope with extreme conditions

from salt caves Antarctic

salt pans tropics high salinity light intensity turns microalgae orange

producing protective

carotenoids pink orange many salt lakes containing Dunaliella is intensified presence

archaea
fellow single celled organisms Factory CO2 algae biorefinery four year collaborative project with funding from European Union’s Cooperation
Work
Programme Factory
partners include:
Universities
research institutes: University Greenwich UK; National Technical
University Athens Greece; Institute

Energy Environmental

Research Heidelberg Germany; Marine Biological Association Small medium enterprises SMEs : A4F AlgaFuel Portugal; Nature Beta Technologies Israel; SPTechnical Research Institute Sweden; Dynamic Extractions UK; NateCO2 Germany; Instituto Biologia Experimental Tecnologica Portugal; Evodos Netherlands; Hafren Investments UK; IN

Italy