Objectif environnemental
La certification BREEAM, développée au Royaume-Uni, définit un cadre de management environnemental pour les opérations de construction.
La conception est pilotée à travers neuf thématiques :
- Management
- Water
- Health and wellbeing
- Materials
- Energy
- Waste
- Transport
- Land use and ecology
- Pollution
En fonction du nombre de préconisations retenus, un scoring permet de définir le niveau de performance de la certification. Quatre niveaux sont proposés :
|
« Good » |
« Very good » |
« Excellent » |
« Outstanding » |
Le projet de plateforme logistique GOODMAN vise l’atteinte d’une certification BREEAM selon les caractéristiques suivantes :
Notation
|
BREEAM rating |
% score |
Equivalent |
|
OUTSTANDING |
≥ 85 |
Less than top 1% of new buildings (innovator) |
|
EXCELLENT |
≥ 70 |
Top 10% of new buildings (best practice) |
|
VERY GOOD |
≥ 55 |
Top 25% of new buildings (advanced good practice) |
|
GOOD |
≥ 45 |
Top 50% of new buildings (intermediate good practice) |
|
PASS |
≥ 30 |
Top 75% of new buildings (standard good practice) |
|
UNCLASSIFIED |
< 30 |
/ |
Coûts
- Ingénierie du bureau d’études
- Coût relatif au travail de l’assesseur : audits en phase conception et après travaux, réalisation des différents rapports, échanges avec le BRE à entre 10 000 € et 15 000 € selon le projet
- Surinvestissement pour un projet BREEAM Very good à entre 10 % et 30 %
Préoccupations
|
BREEAM International sections and issues |
|
|
Management |
Water |
|
Sustainable procurement |
Water consumption |
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Responsible construction practices |
Water monitoring |
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Construction site impacts |
Water leak detection and prevention |
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Stakeholder participation |
Water efficient equipment |
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Life cycle cost and service life planning |
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Health and wellbeing |
Materials |
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Visual comfort |
Life cycle impacts |
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Indoor air quality |
Responsible sourcing of materials |
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Thermal comfort |
Insulation |
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Water quality |
Designing for robustness |
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Acoustic performance |
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Safe access |
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Hazards |
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Private space |
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Energy |
Waste |
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Energy efficiency |
Construction waste management |
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Energy monitoring |
Recycled aggregate |
|
Energy external lighting |
Operational waste |
|
Low and zero carbon technologies |
Speculative floor and ceiling finishes |
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Energy efficient cold storage |
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Energy efficient transportations systems |
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Energy efficient laboratory systems (TBC) |
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Energy efficient equipment (process) |
|
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Drying space |
|
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Transport |
Land use and ecology |
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Public transport accessibility |
Site selection |
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Proximity to amenities |
Ecological value of site and protection of ecological features |
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Alternative modes of transport |
|
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Maximum car parking capacity |
Enhancing site ecology |
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Travel plan |
Long term impact on biodiversity |
|
Home office |
Building footprint |
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Pollution |
Innovation |
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Impact of refrigerants |
New technology, process and practices |
|
Nox emissions |
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Surface water run off |
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Reduction of night time light pollution |
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Noise attenuation |
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