document

Developing and implementing toolbox integrations for storing excess heat generated by a PVT system

van Rossum, Aron (author)

This thesis addresses a critical challenge in the field of renewable energy, focusing on the efficient utilization of Photovoltaic-thermal (PVT) systems. Despite their promising role in sustainable energy production, PVT systems often grapple with excess heat generation, impacting their efficiency and longevity. The primary objective of this...

master thesis 2024

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On the design of 5GDHC substation control systems

Khlebnikova, E. (author), Pothof, I.W.M. (author), van der Zwan, Sam (author), Loverdou, Lefki (author)

This paper presents challenges in the control of 5GDHC networks and proposes an approach for the robust control design of these networks. Temperatures are low and temperature differences are small in 5GDHC networks, in order to minimise heat losses in the distribution network and directly utilise low-temperature heat sources. Therefore, the...

journal article 2024

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Heat losses in ATES systems: The impact of processes, storage geometry and temperature

Beernink, S.T.W. (author), Hartog, Niels (author), Vardon, P.J. (author), Bloemendal, Martin (author)

The technical and economic success of an Aquifer Thermal Energy Storage (ATES) system depends strongly on its thermal recovery efficiency, i.e. the ratio of the amount of energy that is recovered to the energy that was injected. Typically, conduction most strongly determines the thermal recovery efficiency of ATES systems at low storage...

journal article 2023

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Thermal Energy Recovery from Drinking Water Distribution Systems: A study into microbial water quality and potential energy

Ahmad, J.I. (author)

Drinking water distribution systems (DWDSs) are intended to supply hygienically safe and biostable water for human consumption. To supply aesthetically pleasant drinking water at the customers tap, water treatment and supply requires energy for production and distribution purposes (e.g. overall between 0.47 kWh/m³ in the Netherlands)....

doctoral thesis 2022

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Short-term operational stability of 5th generation district heating and cooling substations: Performance improving control strategies for prosumer substations in an ATES ring network

Janssen, Femke (author)

Energy demand for heating and cooling makes up 73\% of total energy use of buildings [2]. This figure is expected to increase over the coming decades, as demand for cooling energy may rise in the Netherlands due to climate change. The heating and cooling of buildings are at relatively low temperature compared to the industry and thus allowing...

master thesis 2022

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Advancing Adoption of Aquifer Thermal Energy Storage: a New Evaluation Method to Support Local Decision-Makers: Assessment of the Technical and Commercial Potential of Aquifer Thermal Energy Storage in New York State Considering the Requirements and Interests of Key Stakeholders

Maltha, Niels (author)

Aquifer Thermal Energy Storage (ATES) is a geothermal technique that is an important component in the transition towards renewable energy in the heating and cooling industry, which accounts for half of the world's energy consumption. However, the technology has not yet been implemented in many countries. The main reason is that extensive...

master thesis 2021

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The influence of installing UTES boreholes on the bearing capacity of piles

Griffioen, Pieter (author)

The transition to renewable energy has lead to many new ways of energy production, such as wind and solar energy. For solar energy power, there is an excess of energy during summer and an deficiency of it during winter, which is reversed for the energy consumption. In order to amend this problem, there is an introduction of new ways of energy...

master thesis 2021

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Risk analysis of High-Temperature Aquifer Thermal Energy Storage (HT-ATES)

Fleuchaus, Paul (author), Schüppler, Simon (author), Bloemendal, Martin (author), Guglielmetti, Luca (author), Opel, Oliver (author), Blum, Philipp (author)

The storage of heat in aquifers, also referred to as Aquifer Thermal Energy Storage (ATES), bears a high potential to bridge the seasonal gap between periods of highest thermal energy demand and supply. With storage temperatures higher than 50 °C, High-Temperature (HT) ATES is capable to facilitate the integration of (non-)renewable heat...

journal article 2020

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Counteraction of buoyancy flow in high temperature aquifer thermal energy storage systems by applying multiple partially penetrating wells

Marif, Kizjè (author)

The thermal recovery efficiency of High Temperature Aquifer Thermal Energy Storage (HT-ATES) systems can be limited due to the effect of buoyancy flow of the injected hot water. This thesis has researched the application of a Multiple Partially Penetrating Wells (MPPWs) as a well design method to counteract the effect of buoyancy flow and...

master thesis 2019

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Interaction between multiple ATES systems: Analysis of thermal and geohydrologic performance

Duijff, Rogier (author)

Aquifer thermal energy storage (ATES) is a sustainable technology that provides thermal energy to buildings in temperate climates. The principle of ATES is to temporary store thermal energy in aquifers in a warm and cold well in order to use this thermal energy for heating and cooling in the next season. Because the available subsurface space is...

master thesis 2019

document

Potential of polymer sewage heat exchangers with enhanced thermal properties

Avadhani, Maneesh (author)

Buildings contribute to 30% of global CO₂ emissions and consume 40% of the global energy supply (Yang et al., 2014). Heating and cooling requirements of the buildings form the major part of the energy consumption in buildings (Culha et al., 2015). Thus to solve this problem, one of the solutions currently being<br/>looked at is to...

master thesis 2019

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Aquifer thermal energy storage following up on the tu delft geothermal well: A study on how a low-temperature aquifer thermal energy storage system can cool and heat the campus in accordance with its climate goals by 2050

van Esser, Beer (author)

In 2020 TU Delft will build a geothermal well producing enough energy to power all its faculties and a number of buildings surrounding the campus. This is done to meet the climate goals the TU set itself: an energy neutral campus by 2040. Geothermal plants are designed to produce for 30 years. After this period, by 2050, the TU has to be energy...

bachelor thesis 2019

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The suitability of High Temperature – Aquifer Thermal Energy Storage in Holland-Rijnland

de Voogd, Rein (author)

High Temperature – Aquifer Thermal Energy Storage (HT-ATES) is a way to efficiently store heat with use of the subsurface. Region Holland-Rijnland has the vision to be free of the use of natural gas in 2050. A proposed high temperature heating network from the port of Rotterdam to the households of Leiden, combined with the use of an HT-ATES...

bachelor thesis 2019

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Transforming Ates To Ht-Ates, Insights From Dutch Pilot Project

Bloemendal, Martin (author), Beernink, Stijn (author), Hartog, Niels (author), van Meurs, Bart (author)

Aquifer Thermal Energy Storage (ATES) systems combined with a heat pump save energy for space heating and cooling of buildings. In most countries the temperature of the stored heat is allowed up to 25-30°C. However, when heat is available at higher temperatures (e.g. waste heat, solar heat), it is more efficient to store higher temperatures...

conference paper 2019

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Ates Smart Grids: Optimal Use Of Subsurface Space In High Density Ates Areas

Bloemendal, Martin (author)

Aquifer Thermal Energy Storage (ATES) systems provide buildings with sustainable space heating and cooling by seasonally storing and recovering thermal energy in the subsurface. The increased use of ATES in Dutch cities resulted in dense use of ATES in urban aquifers, often up to congestion level. Because thermal interactions among neighbouring...

conference paper 2019

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The hidden side of cities: Methods for governance, planning and design for optimal use of subsurface space with ATES

Bloemendal, Martin (author)

Aquifer Thermal Energy Storage (ATES) systems provide sustainable space heating and cooling for buildings. In future, many buildings in moderate climates rely on ATES for their space heating and cooling. <br/>However, the subsurface space available for heat storage is limited and, there is a trade-off between individual ATES system efficiency...

doctoral thesis 2018

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Probabilistic energy management for building climate comfort in smart thermal grids with seasonal storage systems

Rostampour, Vahab (author), Keviczky, T. (author)

This paper presents an energy management framework for building climate comfort (BCC) systems interconnected in a grid via aquifer thermal energy storage (ATES) systems in the presence of two types of uncertainty (private and common). ATES can be used either as a heat source (hot well) or sink (cold well) depending on the season. We consider...

journal article 2018

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Energy management for building climate comfort in uncertain smart thermal grids with aquifer thermal energy storage

Rostampour, Vahab (author), Keviczky, T. (author)

In this paper, we present an energy management framework for building climate comfort systems that are interconnected in a grid via aquifer thermal energy storage (ATES) systems in the presence of two types of uncertainty namely private and common uncertainty sources. The ATES system is considered as a large-scale storage system that can be a...

journal article 2017

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Effect van variaties in chloride concentratie op de efficiency van een warmte- en koudeopslag systeem

Stevens, Ivor (author)

This research is executed to study the effects of density driven currents and their effects on Aquifer Thermal Energy Storage Systems(ATES).<br/><br/>A monowell system is studied in the location of Amsterdam, in the Netherlands. Due to saline water deep in the ground and fresh water higher in the ground, there is a gradient in density in the...

bachelor thesis 2016

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Building climate energy management in smart thermal grids via aquifer thermal energy storage systems

Rostampour, Vahab (author), Jaxa-Rozen, M. (author), Bloemendal, Martin (author), Keviczky, T. (author)

This paper proposes a building energy management framework, described by mixed logical dynamical systems due to operating constraints and logic rules, together with an aquifer thermal energy storage (ATES) model. We develop a deterministic model predictive control strategy to meet building thermal energy demand. At each sampling a mixed...

conference paper 2016