Towards Sustainable Heat Supply with Decentralized Multi-Energy Systems by Integration of Subsurface Seasonal Heat Storage

Roest, Els van der; Beernink, Stijn; Hartog, Niels; Hoek, Jan Peter van der; Bloemendal, Martin

doi:10.3390/en14237958

Cited by 10 publications

(3 citation statements)

References 28 publications

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“…Revitalizing abandoned hydrocarbon fields for sustainable energy utilization presents a promising pathway to address the intermittent nature of renewable resources and the global challenge of carbon emissions reduction [1,2]. This initiative aligns with the urgent call for innovative energy solutions underscored in pivotal studies and reports [3][4][5][6], aiming to bridge the seasonal supply-demand mismatch and enhance energy security [7,8]. It embodies the drive towards energy decentralization and independence, highlighting the critical need for adaptable and reliable energy systems in the face of fluctuating renewable outputs [9,10].…”

Section: Introductionmentioning

confidence: 99%

Guided Transformation of Abandoned Hydrocarbon Fields into Heat Storage Solutions Using Enhanced MCDA-AHP Geostatical Based Method, Hungarian Case Study

Abdulhaq,

Geiger,

Vass

et al. 2024

Preprint

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This study introduces a robust methodology utilizing Multi-Criteria Decision Analysis (MCDA) combined with the Analytic Hierarchy Process (AHP) to repurpose abandoned hydrocarbon fields for energy storage, supporting the transition to renewable energy sources. We use a geostatistical approach integrated with Python scripting to analyze reservoir parameters—including porosity, permeability, thickness, lithology, temperature, heat capacity, and thermal conductivity—from a decommissioned hydrocarbon field in Southeast Hungary. Our workflow leverages stochastic simulation data to identify potential zones for energy storage, categorizing them into high, moderate, and low suitability scenarios. This innovative approach provides rapid and precise analysis, enabling effective decision-making for energy storage implementation in depleted fields.

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Section: Introductionmentioning

confidence: 99%

Guided Transformation of Abandoned Hydrocarbon Fields into Heat Storage Solutions Using Enhanced MCDA-AHP Geostatical Based Method, Hungarian Case Study

Abdulhaq,

Geiger,

Vass

et al. 2024

Preprint

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“…The conclusion was that heat and gas storage equipment helped solve the impact of renewable energy uncertainties in the MES. van der Roest et al [23] developed a method to improve the integration and control of hightemperature aquifer thermal energy storage (HT-ATES) system in a decentralized multi-energy system. The study expanded the multi-energy system model and combined it with the numerical hydrothermal model in order to dynamically simulate the functions of multiple HT-ATES system design.…”

Section: Introductionmentioning

confidence: 99%

Remote Temperature Control Strategy of Multi-energy Heat Collection Based on the Internet of Things

Liu¹,

Wu²,

Wu³

et al. 2023

IJHT

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With the continuous development of the Internet of Things (IoT) and new energy utilization technology, the energy management and monitoring mode has undergone fundamental changes. Design and development of remote real-time monitoring and management system for multi-energy heat collection has certain theoretical and practical application value. The existing remote temperature control model fully considers neither the impact of multi-energy collaborative heat collection on remote temperature control strategy, nor the interactions among multiple objective factors, such as climate and location. Therefore, this paper studied the remote temperature control strategy of multienergy heat collection based on the IoT. First, the paper gave the application architecture of multi-energy heat collection system functions, and developed a multi-energy heat collection system model without simulation performance loss using stochastic modeling ideas. Second, this paper made full use of the error information of the process, thus correcting the predicted value of the remote temperature control output. Finally, the experimental results verified the effectiveness of the model and the control strategy.

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“…In the last decade, interest in the suitability and applicability of HT-ATES has grown massively, resulting in many case studies which explore the potential of HT-ATES for site-specific conditions (e.g. Réveillère et al, 2013;Zeghici et al, 2015;Xiao et al, 2016;Opel et al, 2017;Winterleitner et al, 2018;Ueckert and Baumann, 2019;Collignon et al, 2020;Stricker et al, 2020;Van der Roest et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Using multiple partially-penetrating wells (MPPWs) to improve the performance of high-temperature ATES systems: Well operation, storage conditions and aquifer heterogeneity

2022

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Towards Sustainable Heat Supply with Decentralized Multi-Energy Systems by Integration of Subsurface Seasonal Heat Storage

Cited by 10 publications

References 28 publications

Guided Transformation of Abandoned Hydrocarbon Fields into Heat Storage Solutions Using Enhanced MCDA-AHP Geostatical Based Method, Hungarian Case Study

Guided Transformation of Abandoned Hydrocarbon Fields into Heat Storage Solutions Using Enhanced MCDA-AHP Geostatical Based Method, Hungarian Case Study

Remote Temperature Control Strategy of Multi-energy Heat Collection Based on the Internet of Things

Using multiple partially-penetrating wells (MPPWs) to improve the performance of high-temperature ATES systems: Well operation, storage conditions and aquifer heterogeneity

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