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Below are the public deliverables of the project.
D1.2. State of the art (PM10) D1.2. State of the art (PM48) D1.3. Application of redox in the Safety Case (PM12) D1.3. Application of Redox in the Safety Case (PM48) D2.1. Agreement on details for IC Exercise D2.2. Experimental scheme for the IC Exercise D2.3. Consolidated outcome of the ICE D2.4. Further work on determination of redox state D3.1. Characterization of the redox determining minerals used in the investigations D3.2. Effect of Microbial processes on redox (PM45) D3.3. Buffer Capacity and the redox kinetics (PM45) D3.4. Incorporation of the concept of RDC (PM45) D4.1. Chemical and redox behaviour of the investigated RRNN (PM45) D4.2. Chemical and redox behaviour of the investigated RRNN through microbial mediated processes (PM45) D5.1. Redox in RRNN transport in crystalline rock (PM45) D5.2. Redox in RRNN transport in clay rock (PM45) D5.3. Redox in RRNN transport in contaminated systems (PM45) D6.1.Redox driven SF dissolution and RRNN trapping by steel canister corrosion products (PM45) D6.2.Redox driven SF dissolution through galvanic coupling (PM45) D7.4.Brochure 1AWSpdf D7.4.Brochure 2AWS D7.4.Brochure 3AWS D7.4.Brochure 4AWS D7.5. 1st newsletter D7.5. 2nd newsletter D7.5. 3rd newsletter D7.5. 4th newsletter D7.5. 5th newsletter D7.5. 6th newsletter D7.5. 7th newsletter
D1.2. State of the art (PM10)
D1.2. State of the art (PM48)
D1.3. Application of redox in the Safety Case (PM12)
D1.3. Application of Redox in the Safety Case (PM48)
D2.1. Agreement on details for IC Exercise
D2.2. Experimental scheme for the IC Exercise
D2.3. Consolidated outcome of the ICE
D2.4. Further work on determination of redox state
D3.1. Characterization of the redox determining minerals used in the investigations
D3.2. Effect of Microbial processes on redox (PM45)
D3.3. Buffer Capacity and the redox kinetics (PM45)
D3.4. Incorporation of the concept of RDC (PM45)
D4.1. Chemical and redox behaviour of the investigated RRNN (PM45)
D4.2. Chemical and redox behaviour of the investigated RRNN through microbial mediated processes (PM45)
D5.1. Redox in RRNN transport in crystalline rock (PM45)
D5.2. Redox in RRNN transport in clay rock (PM45)
D5.3. Redox in RRNN transport in contaminated systems (PM45)
D6.1.Redox driven SF dissolution and RRNN trapping by steel canister corrosion products (PM45)
D6.2.Redox driven SF dissolution through galvanic coupling (PM45)
D7.4.Brochure 1AWSpdf
D7.4.Brochure 2AWS
D7.4.Brochure 3AWS
D7.4.Brochure 4AWS
D7.5. 1st newsletter
D7.5. 2nd newsletter
D7.5. 3rd newsletter
D7.5. 4th newsletter
D7.5. 5th newsletter
D7.5. 6th newsletter
D7.5. 7th newsletter
