Land subsidence related damage to residential real estate and cost-effective adaptation strategies

Land subsidence related damage to residential real estate and cost-effective adaptation strategies: From sinking to solutions: a methodological approach to assess the cost-effectiveness of adaptation strategies to counteract land subsidence related damage to residential real estate

Jansen, Dirk (TU Delft Civil Engineering & Geosciences)

Kok, M. (mentor)
Taylor, Zac (graduation committee)
van den Bremer, T.S. (graduation committee)

Delft University of Technology

Civil Engineering | Hydraulic Engineering | Hydraulic Structures and Flood Risk

2023-07-18

Land subsidence poses significant damage risks to residential real estate, including pile rot, differential settlements, pluvial flood risk, and dewatering risk amounting tens of thousands of euros. In the Netherlands, the number of affected houses has surpassed one million and is estimated to reach two million, accounting for a quarter of all houses in the country. Without an action perspective homeowners are left to their own devices which this research shows can lead to postponing action until risks materialize. To mitigate these risks, multiple adaptation strategies are available. This thesis focuses on determining the cost-effectiveness of two general pathways for residential real estate constructed with either a wooden pile foundation or a shallow foundation: renovating existing houses or replacing them entirely. The study also investigates whether incorporating additional measures aimed at improving overall benefits such as increasing the amount of living space or transitioning towards a more sustainable house with energy label A, is cost-effective by comparing the costs and benefits associated with the adaptation strategies. When the benefits outperform the costs the strategy is labelled favourable. Through a comprehensive analysis, this research provides valuable insights into economically viable approaches for addressing land subsidence-related risks in residential real estate in relation to the location specific characteristics. It proves additional measures are required to make either renovation or replacement a cost-effective adaption strategy. Two options are shown to be cost-effective. Firstly, renovation including additional investments to
increase square meters of living space and transitioning to an energy performance A-label. Secondly, replacement including densification by building back more square meters of living space, increasing the amount of houses or a combination of the two. Both require large investments resembling around 75% to 150% of the current housing price respectively. Increasing the amount of square meters even further improves the result however this increasingly affects the character of the neighbourhood and its social composition. With these results, this thesis hence provides an action perspective to homeowners and stakeholders including policy makers and financial institutions by means of a solution space to address
land subsidence in an economically favourable way, whilst simultaneously reflecting on the differences in implications for the parties involved.

Land subsidence
residential real estate
adaptation
strategy
climate change
Cost Benefit Analysis

http://resolver.tudelft.nl/uuid:fda6b963-ad2f-4e52-9b51-17619c6cd325

Student theses

master thesis

© 2023 Dirk Jansen