A5000228081- Methane Hydrates and Related Phenomena
- CO2 Sequestration and Geologic Interactions
- Nursing care and research
- Carbon Dioxide Capture Technologies
- Geological and Geophysical Studies
- Service-Learning and Community Engagement
- Drilling and Well Engineering
- Geological Studies and Exploration
- Hydraulic Fracturing and Reservoir Analysis
- Nursing Education, Practice, and Leadership
- Interprofessional Education and Collaboration
- Cultural Competency in Health Care
- Ocean Acidification Effects and Responses
University of Bremen
2024-2025
Pontificia Universidad Católica de Chile
2001
Abstract Marine carbon dioxide removal (mCDR) and geological storage in the marine environment (mCS) promise to help mitigate global climate change alongside drastic emission reductions. However, implementable potential of mCDR mCS depends, apart from technology readiness, also on site‐specific conditions. In this work, we explore different options for mCS, using German context as a case study. We challenge each option remove 10 Mt CO 2 yr −1 , accounting 8%–22% projected hard‐to‐abate...
Abstract International faculty‐exchange programmes can be cost‐effective methods for faculty development and enhanced student learning. Despite the increasing interest in international nursing exchanges, literature on exchanges is limited. This article examines a case study of successful programme between university Chile one United States America (USA), based model exchange. The includes components pre‐exchange planning, academic activities, socio‐cultural events evaluation outcomes....
The majority of Earth’s basaltic volcanism occurs at mid-ocean ridges, where new ocean floor is created. Especially young oceanic crust, which highly porous and permeable, subject to regional off-axis hydrothermal circulation, extracts large amounts heat impacts global water chemical fluxes between the lithosphere. Generally, seawater recharge fluid discharge happen crust exposed seafloor. This mode circulation usually referred as outcrop-to-outcrop flow. Basaltic aquifers,...
The basaltic crust attracts increasing attention as a promising lithology for CO2 storage, due to its common occurrence, vast storage capacity in pores, and chemical composition rich divalent cations - required bind the dissolved form of carbonate minerals. availability mineralization critically depends on dissolution kinetics host rock. Numerous laboratory experiments have been conducted variety rock forming minerals investigate these mechanisms under various experimental conditions. In...
Marine carbon dioxide removal (mCDR) and geological storage in the marine environment (mCS) promise to contribute mitigation of global climate change combination with drastic emission reductions. However, implementable potential mCDR mCS depends, apart from technology readiness, also on site-specific conditions. In this paper, we explore different options for mCS, using German context as a case study. We challenge each option remove 10 Mt CO2 yr-1, which accounts 8-22% projected...