ESR 2 project SUP&R ITN

1. www.superitn.eu
Project
1.2
(ESR2):Design
and
characteriza;on
of
mixes
manufactured
with
binders
from
biomass
Ana
Jiménez
del
Barco
Carrión
8th
September
2014
NTEC,
NoPngham
(UK)

2. Project
1.2
(ESR2):Design
and
characteriza;on
of
mixes
manufactured
with
binders
from
biomass
• Involved
organiza;ons
• ESR2
Ana
Jiménez
del
Barco
Carrión
Granada,
Spain
• Bachelor
degree
in
Civil
Engineering
University
of
Granada
• Master
degree
in
Structure
Engineering
University
of
Granada
• PhD
Student
in
Civil
Engineering
University
of
No4ngham

3. Project
1.2
(ESR2):Design
and
characteriza;on
of
mixes
manufactured
with
binders
from
biomass
Bio-­‐binder
is
an
asphalt
binder
alterna9ve
PROJECT
OBJECTIVES
• To
iden;fy
and
characterize
bio-­‐binders
and
developing
an
ageing
methodology
• To
develop
binder
and
mix
design
• To
compare
behaviour
of
several
mixes
and
select
the
most
effec;ve
solu;on
made
from
non-­‐petroleum-­‐based
renewable
resources,
which
should
not
rival
any
food
material,
and
have
environmental
and
economical
benefits
(Peralta
et
al.
2012)
AIM
TO
PROMOTE
THE
USE
OF
MIXES
WITH
BIOBINDERS

4. Project
1.2
(ESR2):Design
and
characteriza;on
of
mixes
manufactured
with
binders
from
biomass
Bio-­‐binders
can
be
used
in
four
different
ways
to
decrease
the
demand
for
fossil-­‐fuel-­‐
based
bituminous
binders:
ü A
direct
alterna;ve
binder
(100%
replacement)
ü A
bitumen
extender
(25-­‐75%
bitumen
replacement)
ü A
bitumen
modifier
(<10%
bitumen
replacement)
ü A
RAP
bitumen
rejuvenators

5. Project
1.2
(ESR2):Design
and
characteriza;on
of
mixes
manufactured
with
binders
from
biomass
Bio-­‐binders
can
be
used
in
four
different
ways
to
decrease
the
demand
for
fossil-­‐fuel-­‐
based
bituminous
binders:
ü A
direct
alterna9ve
binder
(100%
replacement)
ü A
bitumen
extender
(25-­‐75%
bitumen
replacement)
ü A
bitumen
modifier
(<10%
bitumen
replacement)
ü A
RAP
bitumen
rejuvenator

6. Project
1.2
(ESR2):Design
and
characteriza;on
of
mixes
manufactured
with
binders
from
biomass
Bio-­‐binders
can
be
used
in
four
different
ways
to
decrease
the
demand
for
fossil-­‐fuel-­‐
based
bituminous
binders:
ü A
direct
alterna9ve
binder
(100%
replacement)
ü A
bitumen
extender
(25-­‐75%
bitumen
replacement)
ü A
bitumen
modifier
(<10%
bitumen
replacement)
ü A
RAP
bitumen
rejuvenators
LITERATURE
REVIEW
BLEND
DESIGN
BIOBINDER
STUDY
MIXTURE
STUDY
FIELD
TRACK

7. Project
1.2
(ESR2):Design
and
characteriza;on
of
mixes
manufactured
with
binders
from
biomass
Bio-­‐binders
can
be
used
in
four
different
ways
to
decrease
the
demand
for
fossil-­‐fuel-­‐
based
bituminous
binders:
ü A
direct
alterna9ve
binder
(100%
replacement)
ü A
bitumen
extender
(25-­‐75%
bitumen
replacement)
ü A
bitumen
modifier
(<10%
bitumen
replacement)
ü A
RAP
bitumen
rejuvenator
LITERATURE
REVIEW
BLEND
DESIGN
BIOBINDER
STUDY
MIXTURE
STUDY
FIELD
TRACK

8. Acknowledgements
The
research
presented
in
this
presenta9on
was
carried
out
as
part
of
the
Marie
Curie
Ini9al
Training
Network
(ITN)
ac9on,
FP7-­‐PEOPLE-­‐2013-­‐ITN.
This
project
has
received
funding
from
the
European
Union’s
Seventh
Framework
Programme
for
research,
technological
development
and
demonstra9on
under
grant
agreement
number
607524.

9. www.superitn.eu
THANK YOU
MERCI
GRAZIE
GRACIAS
CONTACTS
Ana
Jiménez
del
Barco
Carrión
Ana.jimenezdelbarcocarrion@noPngham.ac.uk
Davide
Lo
Pres9
Davide.lopres;@noPngham.ac.uk
Gordon
Airey
Gordon.airey@noPngham.ac.uk