Resumé

The ultimate purpose of the project "New material for wave energy sub‐structures” (Funding body: Energiteknologisk Udviklings‐ og Demonstrations Program (EUDP). Area: wave energy and new sustainable materials for marine environment. Leading: Aalborg University Civil and Chemical, Esbjerg (DK). Other Partners: Resen waves (DK), Electrocell (DK), Wave Piston (DK), Biorok.inc.(USA). Case number: 50520010) is to investigate the possibility of producing a construction material under sea water electrolysis from the mineral deposition accumulated over the cathode. As we know from literature (Goreau 2012), mainly three different kinds of materials can be obtained: Aragonite and Brucite and Calcite. Brucite is friable and brittle and we decided to focus on the production of Aragonite in these first investigations, because, given its mechanical properties ((Goreau 2012), carrying loads, hardness…) it is more interesting for the purpose.
OriginalsprogEngelsk
Udgivelses stedAalborg
ForlagDepartment of Civil Engineering, Aalborg University
Antal sider44
StatusUdgivet - 2019
NavnDCE Technical Reports
Nummer268
ISSN1901-726X

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brucite
aragonite
wave energy
electrokinesis
seawater
mineral
hardness
marine environment
mechanical property
calcite
material
laboratory test
chemical
new material
programme
project

Citer dette

Lucia, M., Simonsen, M. E., & Bjørgård, T. L. (2019). Laboratory tests on mineral deposition under sea water electrolysis. Aalborg: Department of Civil Engineering, Aalborg University. DCE Technical Reports, Nr. 268
Lucia, Margheritini ; Simonsen, Morten Enggrob ; Bjørgård, Trine Larsen. / Laboratory tests on mineral deposition under sea water electrolysis. Aalborg : Department of Civil Engineering, Aalborg University, 2019. 44 s. (DCE Technical Reports; Nr. 268).
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Lucia, M, Simonsen, ME & Bjørgård, TL 2019, Laboratory tests on mineral deposition under sea water electrolysis. DCE Technical Reports, nr. 268, Department of Civil Engineering, Aalborg University, Aalborg.

Laboratory tests on mineral deposition under sea water electrolysis. / Lucia, Margheritini; Simonsen, Morten Enggrob; Bjørgård, Trine Larsen.

Aalborg : Department of Civil Engineering, Aalborg University, 2019. 44 s. (DCE Technical Reports; Nr. 268).

Publikation: Bog/antologi/afhandling/rapportRapportForskning

TY - RPRT

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N2 - The ultimate purpose of the project "New material for wave energy sub‐structures” (Funding body: Energiteknologisk Udviklings‐ og Demonstrations Program (EUDP). Area: wave energy and new sustainable materials for marine environment. Leading: Aalborg University Civil and Chemical, Esbjerg (DK). Other Partners: Resen waves (DK), Electrocell (DK), Wave Piston (DK), Biorok.inc.(USA). Case number: 50520010) is to investigate the possibility of producing a construction material under sea water electrolysis from the mineral deposition accumulated over the cathode. As we know from literature (Goreau 2012), mainly three different kinds of materials can be obtained: Aragonite and Brucite and Calcite. Brucite is friable and brittle and we decided to focus on the production of Aragonite in these first investigations, because, given its mechanical properties ((Goreau 2012), carrying loads, hardness…) it is more interesting for the purpose.

AB - The ultimate purpose of the project "New material for wave energy sub‐structures” (Funding body: Energiteknologisk Udviklings‐ og Demonstrations Program (EUDP). Area: wave energy and new sustainable materials for marine environment. Leading: Aalborg University Civil and Chemical, Esbjerg (DK). Other Partners: Resen waves (DK), Electrocell (DK), Wave Piston (DK), Biorok.inc.(USA). Case number: 50520010) is to investigate the possibility of producing a construction material under sea water electrolysis from the mineral deposition accumulated over the cathode. As we know from literature (Goreau 2012), mainly three different kinds of materials can be obtained: Aragonite and Brucite and Calcite. Brucite is friable and brittle and we decided to focus on the production of Aragonite in these first investigations, because, given its mechanical properties ((Goreau 2012), carrying loads, hardness…) it is more interesting for the purpose.

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Lucia M, Simonsen ME, Bjørgård TL. Laboratory tests on mineral deposition under sea water electrolysis. Aalborg: Department of Civil Engineering, Aalborg University, 2019. 44 s. (DCE Technical Reports; Nr. 268).