Actions

GENERAL ACTIONS

1: Plant design

2: Integration of the project technologies

3: Plant construction

4: Biochar aplication

5: Plant operation

6: Biochar aplication

7: Plant results analysis

8: Project dissemination

SPECIFIC ACTIONS

B1: Design and Construction of the Pyrolysis Kiln and Biochar Cooler.

B2: Determine optimum biosolvent for synthetic gas cleaning system.

B3: Design and construction of the synthetic gas cleaning system.

B4: Pyrolysis Kiln and Biochar Cooler Commissioning and Optimisation.

B5: Synthetic gas cleaning system commisioning and optimization.

B6: CIVIL WORKS

B7: BIOMASS STORAGE AND FEEDING SYSTEM.

B8: GAS ENGINE, COOLING SYSTEM AND GAS OXIDIZER.

B9: INSTRUMENTATION AND CONTROL.

B10: MECHANICAL AND ELECTRICAL ERECTION.

B11: PLANT COMMISSIONING AND O&M PERSONNEL TRAINING.

B12: BALANCE OF THE PLANT.

B13: BIOMASS SUPPLY AND CHIPPING.

B14: BIOMASS CHARACTERIZATION.

B15: TEST SITE PREPARATION.

B16: PRODUCTION OF INTELLIGENT PELLETS FROM BIOCHAR.

B17: UTILIZATION OF THE GENERATED ELECTRICITY.

B18: BIOCHAR APPLICATION AND EUCALYPTUS PLANTATION MONITORING.

C1: STUDY OF THE CARBON FOOTPRINT OF THE PROJECT.

C2: MONITTORING OF THE ENVIROMENTAL AND SOCIOEONOMIC IMPACTS OF THE PROJECT.

C3: COST-BENEFITS OF THE PROJECT.

D1: DISSEMINATION AND COMMUNICATION CAMPAIGN.

D2: COST-BENEFITS OF THE PROJECT.

D3: DDISSEMINATION AND COMMUNICATION CAMPAIGN.

D4: LAYMAN’S REPORT.

E1: PROJECT WEBSITE DEVELOPMENT.

E2: PROJECT NOTICE BOARDS.

E3: GENERAL MANAGEMENT AND COORDINATION OF THE PROJECT.

E4: NETWORKING WITH OTHER LIFE PROJECTS.

E5: AFTER-LIFE COMMUNICATION PLAN.

E6: PROJECT AUDIT.