| Title |
Ca and CO2 Transport and Scaling in the Hijiori HDR System, Japan |
| Authors |
Norio Yanagisawa |
| Year |
2010 |
| Conference |
World Geothermal Congress |
| Keywords |
HDR, EGS, CO2 storage, calcium, calcite, anhydrite, scale transpotation |
| Abstract |
Carbon dioxide (CO2) and calcium (Ca) transport in underground water or geothermal reservoirs is an important topic in water-rock interactions, especially for estimating effects on CO2 storage or scaling in engineering geothermal systems (EGS) or hot dry rock (HDR) systems. ��In the Hijiori HDR test field, dissolved anhydrite near the injection well is the primary source of calcium that leads to calcite precipitation in pipelines. HDR-2 has a lower temperature, and about 2.7 tons of calcite precipitated in the pipeline and well during the 3 months of CO2 circulation. HDR-3 has a higher temperature and about 0.6 tons of calcite precipitated in the deep well.��The transport of CO2 in HDR system including river water and atmosphere was estimated. From river water, production well and atmosphere, about 6 tons of CO2 were injected over a 3 month period. Of the CO2 that reached HDR-2, 68% was precipitated as calcite and 3% CO2 was discharged as gas by the atmosphere. In HDR-3, 20% CO2 precipitated as calcite and 30% CO2 was discharged as gas to the atmosphere.�� |