LOWBRASYS – a LOW environmental impact BRAke SYStem
1. LOWBRASYS
Guido PERRICONE (Brembo S.p.A.)
This project has received funding from the
European Union’s Horizon 2020 research and
innovation programme under grant agreement
No 636592
2. 10 members from 5+1 European countries
Total costs: 9.5 million € (7.4 funded)
Project Start: 01. September, 2015
Project duration: 36 month
(IT) (DE) (HU) (SE) (CZ)
(EU)
LOWBRASYS:
a LOW environment impact BRAke SYStem
This project has received funding from the
European Union’s Horizon 2020 research and
innovation programme under grant agreement
No 636592
2
3. Objectives of the project
To demonstrate a novel and low environmental impact brake
system that will reduce PM and PN particles (non-exhaust brake emissions)
by at least 50%;
To improve the measurement and understanding of
micrometre-sized and ultrafine particles and their effects on
health and the environment;
Recommendations to policy makers.
This project has received funding from the
European Union’s Horizon 2020 research and
innovation programme under grant agreement
No 636592
3
4. Investigation of real-driving brake patterns
Los Angeles City Track sub-cycle: 3h, 217 (out of 3600) brake events (temperature
controlled) statistically representative for the whole cycle
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5. Change in PM10 and PN for tested solutions with
respect to the reference
This project has received funding from the
European Union’s Horizon 2020 research and
innovation programme under grant agreement
No 636592
All ELPI+ channels (6 nm -10 mm)
8 different novel hard solutions
Hard (brake disc + friction
material) solutions
Best performing
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IncreaseDecrease
6. Other results on-going to contribute to 50%
reduction
This project has received funding from the
European Union’s Horizon 2020 research and
innovation programme under grant agreement
No 636592
By-wire Brake System MK C1
Smart dashboard
Assessment of PM and PN
reduction on-going
Capturing system (attached to the
caliper)
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7. Policy maker recommendations
Contribution to PMP informal group under the GRPE Working
Party of UNECE umbrella with know-how transfer in 2
dedicated Task Force of:
1. Real driving cycle (Lowbrasys is contributing with its Los
Angeles City Track experience, while the PMP will include
also a novel cycle based on WLTP database)
2. Measuring techniques (Lowbrasys will participate in a round-
robin tests)
This project has received funding from the
European Union’s Horizon 2020 research and
innovation programme under grant agreement
No 636592
8
8. TOXICOLOGICAL
TESTs:
ECOTOXICOLOGICAL
TESTs:
This project has received funding from the
European Union’s Horizon 2020 research and
innovation programme under grant agreement
No 636592
Next steps: health and environment assessment
plan
Human lung alveolar epithelial cells Human hepatocarcinoma cells
C. Pears
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9. Expected impacts
1. Environment: Cleaner, more efficient road transport activities through advances in
brake concept that helps the transition to zero emissions vehicles in urban
agglomerations.
2. Health: Substantial reduction of emission of PM in mass and numbers will translate
into reduction of impact on human health with related socio-economic benefits for
EU society.
3. Market: Contribution to strengthen the competitiveness of the EU car industry for the
entire value chain: materials developers, technology providers, component
manufacturers and OEMs.
4. Innovation and Policies: LOWBRASYS technology is candidate to become Best
Available Technology (BAT) and serve as a basis to support preparation of robust
measurement standards and Legislations on non-exhaust PM emissions.
This project has received funding from the
European Union’s Horizon 2020 research and
innovation programme under grant agreement
No 636592
10
10. Achievements of the project
Indicator Units used
Project
Reference
Project
objective
Project current
achievement
Type of
vehicles
targeted
Pollutant emissions reduction: PM10 from
the brake wear (unregulated)
[%] 100 -50% -17%
1. Passenger
car: Ford
Focus.
2. Commercial
vehicle: Ford
Transit.
Pollutant emissions reduction: PN from
the brake wear (unregulated)
[%] 100 -50% -98%
Toxicity tests on human cell lines (in vitro)
number of
different
cell lines
- 3 15%
Ecotoxicological assay
number of
different
living
organisms
- 2 15%
Patents [N] -
Not
quantified
5 (applications)
This project has received funding from the
European Union’s Horizon 2020 research and
innovation programme under grant agreement
No 636592
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