Deliverables
WP1: Identification of key parameters for the effective use of the EGS-CO2 systems and selection of appropriate locations
D1.1: The list of parameters assumed as the most important for EGS-CO2 system location, designing and exploitation – based on expert survey and opinion
D1.2: Technical report - Specification of EnerGizerS scenarios for evaluation; 3-4 case definitions representing realistic and effective combinations of reservoir conditions and local energy demand profiles
D1.3: Submitting publications to Open Access journal or conference, preliminary title: “Multi-criteria studies and assessment supporting the selection of locations and technologies used in CO2-EGS systems”
WP2: Characteristics of the geothermal reservoir based on the results of comprehensive laboratory tests of rocks
D2.1: Database containing archival petrophysical and mechanical data
D2.2: Database with results of new laboratory measurements of rocks
D2.3: Technical report containing an analysis of the results
D2.4: Submitted scientific journal manuscript or conference paper with working title "Characteristics of the geothermal reservoir for CO2-EGS system in Poland based on the results of comprehensive laboratory tests of rocks"
WP3: Experimental determination of properties and behaviour of CO2-EGS working fluids
D3.1: Prioritized measurement plan
D3.2: Submitted scientific journal manuscript: "New and accurate thermodynamic property data of CO2-EGS relevant working fluids with data fitted to existing thermodynamic models"
WP4: Mathematical modelling of geological reservoir for CO2-EGS exploitation
D4.1: Digital structural models for selected EGS fields
D4.2: Conceptual models for selected EGS fields
D4.3: Permeability distribution models in fractured zone for selected EGS fields
D4.4: Technical report from the EGS modelling with CO2 as a working fluid
D4.5: Two scientific papers on assessment of potential CO2-EGS reservoirs in Poland and Norway, submitted for review to renowned open access journals:
Working title of 1st paper: "Numerical modeling of potential CO2-fed enhanced geothermal system (CO2-EGS) in Poland";
Working title of 2nd paper: "Preliminary assessment of potential CO2-fed enhanced geothermal system (CO2-EGS) in Norway"
WP5: Mathematical modeling of CO2-based topside systems for heat and power production
D5.1: Technical Report - Topside systems specifications - performance requirements, demand specifications, system design and process components
D5.2: Presentation - Topside system modeling - Description of modeling framework of components, processes and thermodynamics, including examples of simulation outputs
D5.3: Technical Report - Proposed topside system designs and predicted performance, and comparison of alternative modeling methodologies
D5.4: Two scientific papers on analysis and optimization of topside systems for heat and power production, submitted for review to renowned open access journals:
Working title paper 1: Combined heat and power plants based on CO2-EGS concept - energy optimization results
Working title paper 2: Evaluation of topside system concepts for CO2-EGS
WP6: Techno-economic and environmental assessment
D6.1: Guidelines for techno-economic and environmental assessment of CO2-EGS systems
D6.2: Report on case studies results of techno-economic and environmental assessment of CO2-EGS systems, regulatory framework and policy impact
D6.3: Scientific publication on techno-economic and environmental assessment guidelines and case studies