Search Results (103)

The sustainable exploitation of geothermal energy is often challenged by issues such as groundwater level decline and thermal attenuation. This study focuses on the sandstone thermal reservoir in Linqing City, Shandong Province. A three-dimensional thermo-hydro-mechanical (THM) multi-field coupling numerical model is developed to simulate the evolution of geothermal water levels and temperature fields under varying reinjection rates. The model was validated against observed water level and temperature data, showing maximum deviations of 1.62 m and 0.6 °C. Simulation results indicate that increasing the reinjection rate mitigates water-level decline but accelerates thermal breakthrough, expanding the low-temperature zone. At a 100% reinjection rate, the minimum temperature at the bottom of the thermal reservoir decreases to 63.6 °C, and the low-temperature area extends to 11.61 km². Moderate reinjection rates help to slow thermal energy loss while maintaining reservoir pressure and stabilizing water levels. This study reveals the dual effects of reinjection rate on the balance of geothermal system and puts forward suggestions on optimizing well spacing according to the simulated advance rate of cold waterfront, so as to ensure sustainable thermal recovery. It provides theoretical basis and numerical simulation support for reinjection strategy optimization and well spacing design of similar geothermal fields in Linqing and North China Plain. Full article

Against the background of global warming, the carbon emission of cities accounts for more than 70%, and its carbon sink increase and emission reduction have become the research focus. The water bodies and green spaces in the urban blue–green space have a synergistic carbon sequestration effect, but current research pays less attention to the small and medium scales. Therefore, taking the waterfront green space on both sides of Qinhuai New River in Nanjing as the research object, this paper explores the impact of the synergy between water and greenery on the carbon sequestration efficiency of green space. The study first estimates the carbon sequestration efficiency of green spaces by integrating measured Leaf Area Index (LAI) data with the mean carbon sequestration rate per unit leaf area for typical tree and shrub species. It then constructs a set of water–green spatial relationship indicators and applies a random forest regression model to identify the key factors influencing carbon sequestration efficiency. Finally, multiple scenario models are developed to simulate the effects of green spaces on CO₂ reduction, thereby validating the roles of the identified influencing factors. The study found that waterfront green spaces tended to exhibit slightly higher carbon sequestration efficiency compared with non-waterfront green spaces. The proportion of 10 m forest land area and the proportion of 10–20 m forest land area had a higher impact on the carbon sequestration capacity of waterfront green space; that is, the closer the distance between the green space and the water, the better the carbon sequestration capacity. In order to improve the carbon sequestration efficiency of the waterfront area, the green space should be arranged along the water bank as much as possible, the depth of the green space should be increased, the proportion of the forest land area should be increased, the arbor and shrub should be planted evenly, and ribbon planting should be avoided. The study confirmed the synergistic effect of water and greenery in carbon sequestration benefits, providing data support and theoretical reference for the optimization and renewal of urban waterfront green space, and contributing to the realization of urban waterfront green space planning, design, and renewal with the goal of a high carbon sink. Full article

Urban public spaces function as complex social and spatial systems, serving as fundamental elements in preserving cultural heritage and fostering democratic participation and urban stability. The dominant valuation methods depend on economic principles that prioritize financial returns and property values over social, ecological, and cultural aspects. This study examines the distinction between social value, which is based on personal experiences and social connections, and fair value, which relies on market operations and financial regulations. The research investigates how valuation practices affect spatial justice and urban governance through a conceptual framework and four empirical case studies: Syntagma Square in Athens, the metro station areas, the city of Barcelona, and waterfront redevelopment projects in Thessaloniki, London, and Mumbai. The official valuation systems we studied conceal the political elements of space while preserving social inequalities and forcing out the requirements of local communities. The proposed solution establishes an integrative, pluralist valuation system that incorporates qualitative, temporal, and ethical elements, supporting the Sustainable Development Goals (SDGs) and the New Urban Agenda. The framework transforms public space discussions from commercialized urban resources into communal civic systems, creating sustainable cities for all. Full article

Understanding visitors’ outdoor activities in urban public spaces and their relationship with the physical environment is essential for improving the precision of public space design. This study, set in the context of Yangzhou, China, focuses on physical activity and other wellbeing behaviors in meso-scale waterfront public spaces, aiming to explore the characteristics of visitor behavior. A professional behavioral observation protocol was employed, combined with object detection and multi-object tracking algorithms, to systematically code visitor activities in the waterfront area. Subsequently, agent-based modeling (ABM) and three-dimensional isovist analysis (3D isovist) were introduced to construct a quantitative framework for assessing visual accessibility. The results reveal a significant positive correlation between facade Visual Exposure Time (seen from the observer) and isovist field area (seen from the object), providing strong evidence that visual accessibility is a primary causal driver of pedestrian behavior—independent of other causality. Based on these findings, this study proposes actionable design guidelines: “Prioritize small-scale, high-density waterfront building facade layouts to maximize visual efficiency” and “Leverage topographical variation along the waterfront by introducing cross-river visual corridors at intervals of ≤45 m”. The integrated analytical toolkit developed in this study—combining behavioral simulation with spatial–visual analysis—provides not only a theoretical foundation but also clear practical guidance for the fine-grained renewal and design of waterfront public spaces. Full article

In recent years, the application of eye-tracking technology in urban studies has garnered increasing attention from researchers across various disciplines. This study aims to provide a comprehensive review of the current applications of eye-tracking technology in these urban environments through a systematic literature analysis. Our findings indicate that eye-tracking technology has played a significant role in exploring visual preferences and the restorative effects of urban streets, as well as the visual preferences and restorative potential of urban landscapes. Certain visual elements in streets and parks, such as artificial and natural elements, can elicit different psychological and visual responses from people. This is of great reference value for understanding how urban street and park design can better meet people’s visual preferences and exert the therapeutic effects of urban streets and parks. Moreover, characterised by its portability and reliability, eye-tracking technology has significant advantages in capturing real-time visual behaviour and cognitive responses in natural urban settings and can become a powerful tool for future research. Furthermore, eye-tracking technology holds great potential for extending its applications to other urban public spaces, such as plazas, waterfront areas, and urban greenways. This expansion can provide deeper insights into how people interact with and perceive various urban environments, ultimately contributing to more effective urban planning and design strategies. Full article

With the rise of green building and biophilic design, how sports venues enhance users’ place attachment through natural design features has become a critical interdisciplinary research topic in architecture and environmental psychology. This study adopts an integrated perspective of environmental psychology and architectural psychology to investigate the impact mechanism of natural design features (natural visibility, integration, and interactivity) on place attachment. Using a maximum likelihood-based structural equation model with a sample of 1022 users of waterside sports venues, this research pioneers the construction and validation of a parallel mediation model involving nature connectedness and biophilia. The findings reveal that (1) natural visibility, integration, and interactivity all significantly and positively influence place attachment; (2) nature connectedness mediates the relationship between natural design features and place attachment; and (3) biophilia also mediates the effect of natural design features on place attachment. This study makes a groundbreaking contribution by uncovering the dual-path “perception-emotion” mechanism through which natural design elements influence users’ psychological responses. The results provide empirical support for the refined application of nature-embedded strategies in architectural design and offer direct guidance for enhancing the social sustainability of high-density urban waterfront public spaces. Full article

As mental health issues such as stress, anxiety, and depression become increasingly prevalent in urban populations, there is a critical need to embed restorative functions into the built environment. Urban parks, as integral components of ecological infrastructure, play a vital role in promoting psychological well-being. This study explores how diverse park environments facilitate mental health recovery through multi-sensory engagement, using integrated psychophysiological assessments in a wetland park in Zhengzhou, China. Electroencephalography (EEG) and perceived restoration scores were employed to evaluate recovery outcomes across four environmental types: waterfront, wetland, forest, and plaza. Key perceptual factors—including landscape design, spatial configuration, biodiversity, and facility quality—were validated and analyzed for their roles in shaping restorative experiences. Results reveal significant variation in recovery effectiveness across environments. Waterfront areas elicited the strongest physiological responses, while plazas demonstrated lower restorative benefits. Two recovery pathways were identified: a direct, sensory-driven process and a cognitively mediated route. Biodiversity promoted physiological restoration only when mediated by perceived restorative qualities, whereas landscape and spatial attributes produced more immediate effects. Facilities supported psychological recovery mainly through cognitive appraisal. The study proposes a smart park framework that incorporates environmental sensors, adaptive lighting, real-time biofeedback systems, and interactive interfaces to enhance user engagement and monitor well-being. These technologies enable urban parks to function as intelligent, health-supportive infrastructures within the broader built environment. The findings offer evidence-based guidance for designing responsive green spaces that contribute to mental resilience, aligning with the goals of smart city development and healthy life-building environments. Full article

Urbanization poses mental health risks for urban dwellers, whereas natural environments offer mental health benefits by providing restorative experiences through visual stimuli. While urban waterfront spaces are recognized for their mental restorative potential, the specific environmental features and individual visual behaviors that drive these benefits remain inadequately understood. Grounded in restorative environments theory, this study investigates how these factors jointly influence restoration. Employing a controlled laboratory experiment, subjects viewed real-life images of nine representative spatial locations from the waterfront space of Guangzhou Long Bund. Data collected during the multimodal experiments included subjective scales data (SRRS), physiological measurement data (SCR; LF/HF), and eye-tracking data. Key findings revealed the following: (1) The element visibility rate and visual characteristics of plant and building elements significantly influence restorative benefits. (2) Spatial configuration attributes (degree of enclosure, spatial hierarchy, and depth perception) regulate restorative benefits. (3) Visual behavior patterns (attributes of fixation points, fixation duration, and moderate dispersion of fixations) are significantly associated with restoration benefits. These findings advance the understanding of the mechanisms linking environmental stimuli, visual behavior, and psychological restorative benefits. They translate into evidence-based design principles for urban waterfront spaces. This study provides a refined perspective and empirical foundation for enhancing the restorative benefits of urban waterfront spaces through design. Full article

While the existing research has extensively explored the impact of urban green spaces on residents’ well-being, studies specifically focusing on waterfront sports buildings remain scarce. This study examines how the combined effects of built environment characteristics in waterfront sports facilities enhance user satisfaction through psychological mechanisms. Based on survey data from 721 users across nine major waterfront sports complexes in China, we find that (1) four social function dimensions (social interaction, accessibility, safety, and multifunctionality) show significant positive correlations with satisfaction; (2) place attachment mediates these relationships. These findings validate the importance of integrating water-oriented design principles with community needs, offering both theoretical contributions to human–water interaction studies and practical implications for urban blue space (defined as visible water features including rivers, lakes, and coastal areas) development. Full article

This research investigates the challenges and opportunities of flood-prone buyback land in the context of intensifying climate change and urban intensification, taking the suburbs of Brisbane City in Australia as a case study. While the floodable land buyback strategy has gained global interest, there has been limited focus on the future of this acquired land in cities. Approaching the design of flood-prone buyback land requires an understanding of the impacts and the specific manifestations of buyback land while embracing the increasing presence of water in these areas. Buyback land represents spaces to rethink the design of cities, going beyond flood resilience and addressing other climate change-related urban challenges. By combining adaptation and regenerative measures, design disciplines can contribute to generating site-specific buyback land strategies, establishing a stronger connection between these newly acquired lands, hydrological systems, urban intensification, and ecological balance to address the current and future needs of the city. The methodology involves a design-led investigation, combining analytical and speculative–exploratory methods, grounded on a site-specific approach, working at multidisciplinary and multi-scalar levels at city, suburb and site scale. This study identifies five typologies of buyback land: isolated, isolated clusters, block-clusters, park-fronted and water-fronted. Understanding these typologies should shape how we rethink buyback land in the context of climate change and urban intensification. When reconceptualized, the buyback land can redefine the flood-prone cities, by applying strategies that reimagine these areas through local climate adaptation, land repair, regeneration and resource recovery. Current and future buyback land offers opportunities for future design practices and policymakers to rethink the city’s long-term development in a changing climate. Full article

Urban ecological recreational space (UERS), as essential provider of ecosystem services, play a crucial role in enhancing human well-being. Nevertheless, limited research has investigated how various types of human–nature interaction influence well-being. This study takes the Hankou waterfront as the research area, using a questionnaire survey of 318 recreationists. A five-dimension well-being scale and interaction type classification were developed. Mean analysis, one-way ANOVA, and stepwise multiple regression were conducted to assess well-being and influencing factors. Results show that mental health had the highest score, while survival security scored the lowest. NDVI positively influenced all well-being dimensions, while fitness facilities and higher education levels showed negative effects. Recreationists engaged in outdoor work-oriented activities experienced higher levels of physical, mental, and self-actualization well-being than sightseeing- or socially oriented users. These findings expand the theoretical understanding of UERS by incorporating human–nature interaction patterns and offer practical guidance for sustainable urban planning. Full article

High-density cities have obvious characteristics of compact urban spatial form and intensive land use in terms of spatial environment, and have always been a topic of academic focus. As a typical coastal historical district, the Macau Peninsula pier district (mainly the Macau Inner Harbour) has a high building density and a low average street width, forming a vertical coastline development model that directly converses with the ocean. This area is adjacent to Macau’s World Heritage Site and directly related to the Marine trade functions. The distribution pattern of cultural heritage linked by the ocean has strengthened Macau’s unique positioning as a node city on the Maritime Silk Road. This text is based on the theory of urban development, integrates spatial syntax and POI analysis techniques, and combines the theories of waterfront regeneration, high-density urban form and post-industrial urbanism to integrate and deepen the theoretical framework, and conduct a systematic study on the urban spatial characteristics of the coastal area of the Macau Peninsula. This study found that (1) Catering and shopping facilities present a dual agglomeration mechanism of “tourism-driven + commercial core”, with Avenida de Almeida Ribeiro as the main axis and radiating to the Ruins of St. Paul’s and Praça de Ponte e Horta, respectively. Historical blocks and tourist hotspots clearly guide the spatial center of gravity. (2) Residential and life service facilities are highly coupled, reflecting the spatial logic of “work-residence integration-service coordination”. The distribution of life service facilities basically overlaps with the high-density residential area, forming an obvious “living circle + community unit” structure with clear spatial boundaries. (3) Commercial and transportation facilities form a “functional axis belt” organizational structure along the main road, with the Rua das Lorchas—Rua do Almirante Sérgio axis as the skeleton, constructing a “functional transmission chain”. (4) The spatial system of the Macau Peninsula pier district has transformed from a single center to a multi-node, network-linked structure. Its internal spatial differentiation is not only constrained by traditional land use functions but is also driven by complex factors such as tourism economy, residential migration, historical protection, and infrastructure accessibility. (5) Through the analysis of space syntax, it is found that the core integration of the Macau Peninsula pier district is concentrated near Pier 16 and the northern area. The two main roads have good accessibility for motor vehicle travel, and the northern area of the Macau Peninsula pier district has good accessibility for long and short-distance walking. Full article

Urban waterfront streets are important mediators that reflect a city’s image and characteristics. They play a positive role in enhancing residents’ cohesion, mental and physical health, and social interactions. Human perceptions represent individuals’ psychological experiences and feelings toward the surrounding environment. Previous studies have explored the impact of urban street-built environmental factors on perceptions; however, research focusing on waterfront street environments and their impacts on human perceptions remains limited. Therefore, exploring the specific impact of waterfront street environmental characteristics on different dimensions of human perception is essential for guiding the development of livable cities. Based on Street View images (SVIs), this study applied artificial neural networks and machine learning semantic segmentation techniques to obtain physical feature data and human perception data of the Murasaki River waterfront line spaces in Kitakyushu, Japan. In addition, correlation and regression analyses were conducted to explore the specific impact of physical features on different dimensions of human perception in waterfront line spaces, and corresponding optimization strategies were proposed. The results show that street greenness significantly enhances perceptions of safety, wealth, and beauty, while effectively reducing boredom and depression. Furthermore, the building visual ratio contributes to increased street vitality. On the other hand, physical features such as openness, spatial indicators, and environmental color diversity have negative effects on positive perceptions, including safety and vitality. In particular, openness significantly increases boredom and depression. This study advances the exploration of urban waterfront street environments from the perspective of human perception, providing a theoretical foundation for improving the spatial quality of waterfront streets and offering references for human-centered urban planning and construction. Full article

Urban regeneration is often presented by those responsible as an unquestionable success story. Barcelona’s transformation from the mid-1980s, with its great Olympic momentum and successive attempts to maintain its international status, is perhaps one of the most widely publicized and celebrated. Among the operations, the waterfront stands out as one of the most significant regeneration efforts due to their territorial scope, social implications, and economic impact. In this text, we want to challenge this official success story with other untold stories: the stories of the preexisting spaces that have been erased, the people who have been displaced, and the industrial heritage that has been destroyed. There are hardly any memories left, and the regeneration projects seem to be built on a previous emptiness. The discourses of success are often accompanied by maps that conceal the process of change and, at the same time, present the regeneration projects as disconnected from other spaces and processes. Maps appear as artifacts with great limitations in their capacity to represent complex and time-delayed processes and, at the same time, have enough power to legitimize urban regeneration as beneficial to all. However, maps can also be powerful tools for changing the way regeneration processes are told and who tells them, thus revealing what has been hidden. Full article

Green spaces in waterfront residential blocks, where the water landscape and green space intersect, have a special carbon sequestration effect due to the distinct ecological interaction between water bodies and green spaces. Studying the carbon sequestration efficiency of green space patterns is crucial for enhancing urban ecological quality. Herein, 100 residential blocks adjacent to water bodies in Shanghai were selected as case areas, and green space pattern classification, random forest algorithm and spatial configuration quantitative analysis were used to analyse the impact of spatial morphology factors, surrounding building environment and water–green coupling environment on the CS efficiency of the green space in residential blocks. The results showed that the importance of the green space morphology index influencing CS is significantly greater than that of the building environment index. Among the indices, the fraction vegetation coverage, coverage ratio of evergreen broadleaved trees and canopy coverage of the green space have a more significant effect. Moreover, the different types and compositions of tree species in residential green spaces have different impacts on CS. Residential blocks with higher levels of water surface ratio (Wr) have a slightly higher CS of the internal green space. In residential blocks 500 m from water bodies, Wr has a significant impact on the CS capacity of the green space. The blocks with an external greenway pattern and external greenway–green grid pattern provide an advantageous environment for CS. This study provides a reasonable basis for the development of riverfront green spaces to increase carbon sequestrations. Full article