Regional geothermal aquifer architecture of the fluvial Lower Cretaceous Nieuwerkerk Formation – a palynological analysis

IF 1.6 2区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Netherlands Journal of Geosciences-Geologie En Mijnbouw Pub Date : 2017-12-01 DOI:10.1017/njg.2017.23

C. Willems, A. Vondrak, D. Munsterman, M. Donselaar, H. Mijnlieff

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引用次数: 5

Abstract

Abstract The primary challenge for efficient geothermal doublet design and deployment is the adequate prediction of the size, shape, lateral extent and thickness (or aquifer architecture) of aquifers. In the West Netherlands Basin, fluvial Lower Cretaceous sandstone-rich successions form the main aquifers for geothermal heat exploitation. Large variations in the thickness of these successions are recognised in currently active doublet systems that cannot be explained. This creates an uncertainty in aquifer thickness prediction, which increases the uncertainty in doublet lifetime prediction as it has an impact on net aquifer volume. The goal of this study was to improve our understanding of the thickness variations and regional aquifer architecture of the Nieuwerkerk Formation geothermal aquifers. For this purpose, new palynological data were evaluated to correlate aquifers in currently active doublet systems based on their chronostratigraphic position and regional Maximum Flooding Surfaces. Based on the palynological cuttings analysis, the fluvial interval of the Nieuwerkerk Formation was subdivided into two successions: a Late Ryazanian to Early Valanginian succession and a Valanginian succession. Within these successions trends were identified in sandstone content. In combination with seismic interpretation, maps were constructed that predict aquifer thickness and their lateral extent in the basin. The study emphasises the value of palynological analyses to reduce the uncertainty of fluvial hot sedimentary aquifer exploitation.

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河流下白垩统Nieuwerkerk组区域地热含水层结构——孢粉学分析

高效地热双重层设计和部署的主要挑战是对含水层的大小、形状、横向范围和厚度(或含水层结构)进行充分的预测。在西荷兰盆地，河流下白垩统富砂岩层序构成了地热开采的主要含水层。在目前活跃的双重系统中，这些序列的厚度变化很大，但无法解释。这造成了含水层厚度预测的不确定性，增加了双重寿命预测的不确定性，因为它会影响含水层的净体积。本研究的目的是提高我们对Nieuwerkerk组地热含水层厚度变化和区域含水层结构的认识。为此，研究人员利用新的孢粉学数据，根据地层年代位置和区域最大洪水面，对当前活跃的双重体系中的含水层进行了关联。根据孢粉岩屑分析，将Nieuwerkerk组河流层序划分为梁赞世晚期至早瓦兰吉尼世和瓦兰吉尼世两个序列。在这些序列中，砂岩含量的趋势被确定。结合地震解释，绘制了预测盆地含水层厚度及其横向范围的地图。该研究强调了孢粉分析在减少河流热沉积含水层开采的不确定性方面的价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Netherlands Journal of Geosciences-Geologie En Mijnbouw 地学-地球科学综合

CiteScore

4.00

自引率

25.90%

发文量

审稿时长

>12 weeks

期刊介绍： Netherlands Journal of Geosciences - Geologie en Mijnbouw is a fully open access journal which publishes papers on all aspects of geoscience, providing they are of international interest and quality. As the official publication of the ''Netherlands Journal of Geosciences'' Foundation the journal publishes new and significant research in geosciences with a regional focus on the Netherlands, the North Sea region and relevant adjacent areas. A wide range of topics within the geosciences are covered in the journal, including "geology, physical geography, geophyics, (geo-)archeology, paleontology, hydro(geo)logy, hydrocarbon exploration, modelling and visualisation." The journal is a continuation of Geologie and Mijnbouw (published by the Royal Geological and Mining Society of the Netherlands, KNGMG) and Mededelingen Nederlands Instituut voor Toegepaste Geowetenschappen (published by TNO Geological Survey of the Netherlands). The journal is published in full colour.