Research output: Contribution to conference › Abstract › peer-review
3-D radio-frequency CSEM at the Weidenpesch waste site in Cologne. / Смирнова, Мария; Тезкан, Бюэлент ; Шлыков, Арсений Андреевич; Асгхари, Шива; Сараев, Александр Карпович; Йогешвар, Притам.
2022. 83 Abstract from EM Induction Workshop, Çeşme, Turkey, September 11-17, 2022, Çeşme, Turkey.Research output: Contribution to conference › Abstract › peer-review
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TY - CONF
T1 - 3-D radio-frequency CSEM at the Weidenpesch waste site in Cologne
AU - Смирнова, Мария
AU - Тезкан, Бюэлент
AU - Шлыков, Арсений Андреевич
AU - Асгхари, Шива
AU - Сараев, Александр Карпович
AU - Йогешвар, Притам
N1 - Conference code: 25
PY - 2022/8/25
Y1 - 2022/8/25
N2 - A classical radio-magnetotelluric (RMT) method is routinely applied to various environmental, engineering, and exploration problems. The technique uses the radio-transmitters broadcasting electromagnetic fields at frequencies above 10 kHz. A significant disadvantage of RMT is a lack of robust radio transmitters in remote areas and a limited depth of investigation. To overcome these problems, the controlled sources can be used as an active source – the CSRMT method. Such modification allows measurements in remote areas and the extended frequency range (from 1 kHz to 1 MHz). However, with controlled sources, maintaining the plainwave assumption at all frequencies and throughout the survey area is often problematic. In this contribution, we present an implementation of the CSRMT method with sources installed in the survey area (near-to-farfield zones). This is, in fact, a CSEM method working in the radio-frequency band. However, we consider impedance tensor and tipper vector transfer functions, which require measurement and modelling of twosource polarisations. Here, we present the results of the radio CSEM measurements collected at the Weidenpesch waste site in Cologne. In the obtained 3-D model, the waste site is well resolved. The model agrees with the boreholes' interpretation and the area's known geology.
AB - A classical radio-magnetotelluric (RMT) method is routinely applied to various environmental, engineering, and exploration problems. The technique uses the radio-transmitters broadcasting electromagnetic fields at frequencies above 10 kHz. A significant disadvantage of RMT is a lack of robust radio transmitters in remote areas and a limited depth of investigation. To overcome these problems, the controlled sources can be used as an active source – the CSRMT method. Such modification allows measurements in remote areas and the extended frequency range (from 1 kHz to 1 MHz). However, with controlled sources, maintaining the plainwave assumption at all frequencies and throughout the survey area is often problematic. In this contribution, we present an implementation of the CSRMT method with sources installed in the survey area (near-to-farfield zones). This is, in fact, a CSEM method working in the radio-frequency band. However, we consider impedance tensor and tipper vector transfer functions, which require measurement and modelling of twosource polarisations. Here, we present the results of the radio CSEM measurements collected at the Weidenpesch waste site in Cologne. In the obtained 3-D model, the waste site is well resolved. The model agrees with the boreholes' interpretation and the area's known geology.
M3 - Abstract
SP - 83
Y2 - 11 September 2022 through 18 September 2022
ER -
ID: 98219311