Your search keyword '"SEA-walls"' showing total 1,792 results

1. 海参多糖的结构、活性及构效关系研究进展.

Author

舒志强, 刘 芳, 井月欣, 矫春娜, 季一枝, 王茂剑, 王共明, and 张 健

Subjects

SEA cucumbers, ANALYTICAL chemistry, STRUCTURE-activity relationships, SEA-walls, MOLECULAR weights, POLYSACCHARIDES, CHONDROITIN sulfates

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Extraction and characterization of collagen and gelatin from body wall of sea cucumbers Stichopus horrens and Holothuria arenicola.

Author

Barzkar, Noora, Attaran-Fariman, Gilan, Taheri, Ali, and Venmathi Maran, Balu Alagar

Subjects

MARINE invertebrates, GLUTAMIC acid, SEA-walls, GELATIN, RHEOLOGY, SEA cucumbers

Abstract

Background: Marine invertebrates, including sponges, molluscs, jellyfish, mussels, and sea cucumbers, are abundant sources of high-quality collagen and offer advantages such as availability, ease of processing, lower inflammatory response, and good metabolic compatibility. Approximately 70% of the total protein in the body wall of sea cucumbers is collagen. Gelatin is a water-soluble protein produced from heat-denatured collagen and has various industrial applications. Methods: Pepsin-solubilized collagen was extracted from the body wall of two sea cucumber Stichopus horrens and Holothuria arenicola, species found in the Oman Sea and characterized with SDS-PAGE and amino acid composition. Then gelatin was extracted from pepsin-solubilized collagen of S. horrens and some rheological properties were measured. Results: Amino acid composition and SDS-PAGE analysis showed that the collagen from both species was type I, with one α1 chain and β chains, with molecular weights of 125 and 250 kDa, respectively. Glycine was the most abundant amino acid in the collagen from both sea cucumber species. The pepsin-soluble collagens from both species had high levels of glycine, proline, alanine, glutamic acid, and hydroxyproline. The gelatin from S. horrens had a melting point of 30 °C and displayed exceptional thermal stability, surpassing that of mammalian gelatin. Its gelling point was 5 °C, like that of cold-water fish gelatin, with a viscosity of 2.065 cp-lower than mammal gelatins. These findings suggested that collagen and gelatin from sea cucumbers could be useful in nutraceutical, pharmaceutical and cosmetic industries. [ABSTRACT FROM AUTHOR]

Published

2024

3. Experimental Investigation of Wave Pressure on Breakwater-Integrated Oscillating Water Column Devices with a Perforated Wall.

Author

Ko, Chun-Han, Fan, Chun-Yu, and Tsai, Ching-Piao

Subjects

STORM surges, WATER waves, WAVE energy, WALL design & construction, ENERGY conversion, SEA-walls

Abstract

This study investigates the wave pressure on an Oscillating Water Column (OWC) device, which features a perforated wall positioned in front of the OWC chamber and is integrated with a caisson breakwater. The perforated wall is designed to mitigate wave impacts on the OWC device under storm wave conditions. To achieve this, a series of laboratory experiments were conducted using a 1:25 scale model, considering both regular and irregular waves. Wave pressure measurements and analyses were performed on various configurations to assess the effects of the perforated wall on the wave pressure exerted against the front wall of the OWC chamber and the caisson breakwater. The results indicate that the perforated wall effectively reduces the amplitude of water column oscillations within the OWC chamber during storm conditions, thereby significantly reducing wave pressure on the OWC chamber wall by approximately 14% and on the breakwater by about 20.3%. [ABSTRACT FROM AUTHOR]

Published

2024

4. In search of Beattie well tanks.

Author

Turnbull, Ian

Subjects

ELECTRIC multiple units, LOCOMOTIVES, TENDER offers, SEA-walls, SHUTTLE services, STEAM locomotives

Published

2024

5. Experimental and numerical investigation of breakwater-integrated heaving point absorber device under irregular waves.

Author

Aiswaria, K., Balaji, Ramakrishnan, and Krishnendu, P.

Subjects

*WAVE energy, *ENERGY development, *SEA-walls, *MODELS & modelmaking, *BREAKWATERS, *ENERGY industries

Abstract

Integrating wave energy devices with coastal structures is a promising solution to reduce the cost of wave energy development along with additional shared benefits. In this study, the performance of a heaving spherical point absorber wave energy converter model in irregular waves is analysed and compared experimentally and numerically. After the fundamental investigation of models in regular waves, it is important to advance the testing in more realistic conditions before the sea trial phase. The investigations are conducted in irregular waves on a 1:30 scale model under two scenarios, (1) model heaving alone and (2) model heaving in a chambered breakwater. Irregular waves are generated based on the JONSWAP spectrum with modified parameters to suit the Indian coastal conditions. Results indicate that the wave energy converter model in the chambered breakwater produces 40.25 % higher power than the model heaving alone in irregular sea conditions. The performance of the model is found to be less compared to that in regular waves. [ABSTRACT FROM AUTHOR]

Published

2024

6. Interrelationship between Wall and Beach Erosion in Loc An, Vietnam: Remote Sensing and Numerical Modeling Approaches.

Author

Van Duy, Dinh, Duc Anh, Nguyen Quang, Viet, Nguyen Trung, and Tanaka, Hitoshi

Subjects

COASTAL zone management, REMOTE sensing, SHORELINES, ANALYTICAL solutions, EROSION, BEACH erosion, SHORELINE monitoring, SEA-walls

Abstract

Beach erosion and coastal protection are complex and interconnected phenomena that have a substantial impact on coastal environments worldwide. Among the various coastal protection measures, seawalls have been widely implemented to mitigate erosion and protect coastal assets. However, the interrelationship between beach erosion and seawalls remains a critical topic for investigation to ensure effective and sustainable coastal management strategies. Seawalls impact the shoreline, particularly through the "end effect", where the seawall functions similarly to a groin, causing erosion on the downdrift side relative to the direction of wave approach. This study provides a detailed analysis of the interplay between beach erosion and seawall structures in Loc An, Vietnam, employing both remote sensing and numerical approaches. Sentinel-2 images were employed together with an analytical solution to observe the shoreline change at the Loc An sand spit and to determine input values for the numerical model. Based on the shoreline dynamics, a numerical scheme was employed to study the shoreline evolution after the construction of a seawall. Our findings show that the shoreline evolution can be divided into three stages: (1) The first stage corresponds to the elongation of the sand spit without interference from coastal structures. (2) The second stage shows the effect of jetties on the shoreline, as signaled by the buildup of sand updrift of the jetties. (3) The third stage shows the effectiveness of the seawall, where the shoreline reaches its equilibrium condition. The study provides a quick and simple method for estimating shoreline diffusivity (ε) in situations where measured data is scarce. [ABSTRACT FROM AUTHOR]

Published

2024

7. Gauged and historical abrupt wave front floods ('walls of water') in Pennine rivers, northern England.

Author

Archer, David, Watkiss, Samuel, Warren, Sarah, Lamb, Rob, and Fowler, Hayley J.

Subjects

SEA-walls, RAINFALL, FLOOD forecasting, ELECTRONIC records, TIME series analysis

Abstract

Extremely rapid rates of rise in level and discharge in a subset of flash floods ('abrupt wave front floods', AWF) are separate hazards from peak level. Such flood events are investigated for Pennine catchments in northern England using both gauged and historical information. Gauged level and flow digital records at 15‐min intervals provide recent data. Historical information for 122 AWF events is extracted from a chronology of flash floods for Britain. Historical AWF events are mapped and found to occur on every major Pennine catchment; catchment descriptors are derived as a basis for assessing catchment vulnerability. We discuss the disputed origin of AWF. Using gauged data, we contrast the rising limb of AWF and 'normal' floods. We investigate time series of historical AWF, noting a puzzling peak in the late 19th century. Current rainfall and river monitoring does not provide a reliable basis for understanding AWF processes or for operational response and we suggest improvements. Similarly, current models for design flood estimation and forecasting do not generate the observed rapid increase in level in AWF floods. [ABSTRACT FROM AUTHOR]

Published

2024

8. Mangrove Cover and Extent of Protection Influence Lateral Erosion Control at Hybrid Mangrove Living Shorelines.

Author

Chan, Sophie C. Y., Swearer, Stephen E., and Morris, Rebecca L.

Subjects

MANGROVE plants, EROSION, SHORELINES, ESTUARIES, SEA-walls, SEDIMENTS, HABITATS

Abstract

Erosion poses a significant threat to coastal and estuarine environments worldwide and is further exacerbated by anthropogenic activities and increasing coastal hazards. While conventional engineered structures, such as seawalls and revetments, are commonly employed to protect shorelines from wave impact and erosion, they can also cause detrimental environmental effects. By creating/restoring coastal habitats with engineered structures, hybrid living shorelines offer coastal protection and other co-benefits. Using aerial imagery, we studied the rates of shoreline change before and after living shoreline installation, and between living shorelines and adjacent bare shorelines in three estuaries in New South Wales, Australia. Mangroves had established behind most rock fillets and displayed a trend of increasing canopy cover with fillet age. In the first 3 years since installation, the rates of lateral shoreline change reduced from − 0.20, − 0.16, and − 0.10 m/year to − 0.03, − 0.01, and 0.06 m/year in living shorelines in Hunter, Manning, and Richmond Rivers, respectively. However, when compared to control shorelines, the effectiveness in reducing erosion varied among living shorelines with mean effect sizes of 0.04, − 0.28, and 1.74 across the three estuaries. A more positive rate of shoreline change was associated with an increasing percentage of mangrove canopy area and an increasing length of protected shoreline at wide channels. While hybrid mangrove living shorelines are a promising solution for mitigating erosion and creating habitats at an estuary-wide scale, they may also contribute to downdrift erosion, emphasising the importance of considering site-specific hydrogeomorphology and sediment movement when installing living shorelines. [ABSTRACT FROM AUTHOR]

Published

2024

9. Hydrodynamic Performance of a Dual-Pontoon WEC-Breakwater System: An Analysis of Wave Energy Content and Converter Efficiency.

Author

Ding, Haoyu

Subjects

*WAVE energy, *POTENTIAL flow, *CONSTRUCTION costs, *WAVE analysis, *ENERGY conversion, *HYBRID systems, *SEA-walls

Abstract

A dual-pontoon WEC-breakwater system is proposed to optimise space utilisation and reduce construction costs by integrating wave energy converters (WECs) with breakwaters. Previous parametric studies on the dimensions and layout of WECs have primarily used potential flow theories, often neglecting the viscous effects in wave–pontoon interactions. In this research, I employ a fully nonlinear viscous model, OpenFOAM®, to address these limitations. I examine multiple parameters, including the gap width between the pontoons, the draft, and the structure breadth, to assess their impact on the functional performance of this hybrid system. Furthermore, I discuss the accurate hydrodynamic performance of waves interacting with multiple floating structures and explore how various parameters influence the dual-pontoon WEC-breakwater integrated system's functionality. I discuss a novel analysis of the effective frequency bandwidth, considering both wave energy conversion efficiency and wave attenuation efficiency, to reflect the overall performance of the integrated system. This paper investigates wave–structure interactions and suggests optimisation strategies for the WEC-breakwater integrated system. [ABSTRACT FROM AUTHOR]

Published

2024

10. Study on the Characteristics of Flow over a Seawall and Its Impact on Pedestrians under Solitary Wave Action.

Author

Hou, Yadong, Zhao, Xizeng, Tao, Gang, Huang, Zhaoyuan, Xu, Nanhui, and Leng, Zequan

Subjects

OCEAN waves, PEDESTRIANS, TYPHOONS, COMPUTER simulation, SIMULATION methods & models, SEA-walls, TOURISTS

Abstract

In response to the incident of tourists falling into the sea due to waves on the seawall berm at Macau Road, Qingdao, during the passage of Typhoon "Songda" in 2022, a combination of numerical simulations and physical model experiments was performed to investigate the mechanics of the event, with emphasis on the wave flow characteristics and the flow evolution process on the seawall berm as well as the force exerted on a human body-equivalent cylinder model. The study found that the thickness of the return flow was significantly greater than that of the overtopping flow on the landward part of the berm. The recoil forces applied to the model on the berm were larger than the impact forces, and the ratio tended towards 1 as the wave height increased. In addition, the stability of pedestrians on the seawall berm was analyzed. The instability conditions for pedestrians in cross-wave flows differed slightly from those in floods. [ABSTRACT FROM AUTHOR]

Published

2024

11. Racial hydrologies: Protecting plantation perimeters in the South Carolina Lowcountry.

Author

Walter, Brian

Subjects

*HYDROLOGY, *PLANTATIONS, *FLOODS, *DIKES (Engineering), *SEA-walls

Abstract

In the South Carolina Lowcountry, near‐annual hurricanes and record‐breaking sea levels have led to disastrous flooding, overwhelming the region's historical tidal infrastructures and entrenched racial geographies. In response, Lowcountry governments, institutions, and residents have undertaken efforts at "perimeter protection," raising dikes and seawalls to safeguard selected urban and rural plantation spaces from tidal flooding. Although perimeter protection is presented as a neutral resilience strategy, its practices and material forms reveal a close relationship between coastal protection and efforts to preserve landscapes of white supremacy. Such logics of perimeter protection contrast with everyday affective encounters with eroding coastlines and with the futures outside of bounded edges imagined by Black Charlestonians. By situating the region's hydrological history within the legacy of slavery and plantation extraction, and by following the effects of current sea level rise, we can see how historical hydrologies—which in this case are also racial hydrologies—are entangled with landscapes of contemporary environmental injustice. [ABSTRACT FROM AUTHOR]

Published

2024

12. Study on the mechanical characteristics and impact resistance improvement of substation masonry wall under flood load.

Author

Liang Zhang, Han Yao, Qing Wang, Mengqi Zhai, Yue Wu, Chenyu Zhang, Kunjie Rong, and Li Tian

Subjects

*STRAINS & stresses (Mechanics), *CURTAIN walls, *SEA-walls, *IMPACT (Mechanics), *FINITE element method

Abstract

This study examines the stress characteristics and deformation modes of masonry walls under flood loads in a 500kV substation project in Xinyang City, Henan Province. A simplified finite element model of substation masonry walls is developed in ABAQUS, considering dynamic water loads, the stress characteristics and deformation modes of masonry walls under flood loads are studied. Flood depth, water velocity, and erosion depth are selected as variables to carry out the parametric analysis of masonry enclosure walls under flood load, to investigate the dynamic response of walls under various parameters, and to examine the damage mechanism of the wall. The research findings suggest that stress levels are elevated at critical locations, such as the bottom center of the wall, the junction between the inner wall and structural column, and the connection between the foundation and structural column during flood loading. The safety of a masonry wall is significantly compromised when flood depth exceeds 0.8 m, water velocity exceeds 2.3 m/s, or erosion depth reaches 0.4 m. A proposed measure aims to enhance the performance of masonry walls by improving stress distribution and reducing stress concentrations, thereby significantly augmenting their load-bearing capacity. [ABSTRACT FROM AUTHOR]

Published

2024

13. Durability Concerns for Different Clear Covers Provided to Reinforcement in Concrete Structures When Considering Different Chloride Exposure Conditions for External and Internal Faces of Members.

Author

Dauji, Saha, Srivastava, P. K., and Bhargava, Kapilesh

Subjects

CONCRETE durability, STRESS corrosion cracking, LIFE cycle costing, DURABILITY, SEA-walls

Abstract

Many structures such as buildings, power plants, stacks, sea walls, bunkers, and tanks are built with reinforced concrete; and durability is a major concern. Corrosion of reinforcement is the most important process of deterioration. Reinforcement corrosion is prevented by maintaining appropriate quality of concrete mix, casting, and curing and by providing the requisite clear cover to reinforcement according to the postulated exposure. The provisions of several international codes were reviewed from these aspects. Many codes can be interpreted in favor of providing different clear covers on different faces of members in a reinforced concrete structure. The authors' interpretation of the Australian and New Zealand codes revealed that these specifically allow the above. However, this practice might lead to severe durability-related concerns, particularly due to corrosion of reinforcement. Case studies conducted with postulated data from a few international codes revealed that internal corrosion cracks might occur earlier than external cracks in certain cases. Internal cracks can be hidden from view and consequently lead to higher damage to the structure prior to detection. For the simultaneous occurrence of corrosion cracks on the internal and external faces of a member, the internal surface chloride concentration would have to be between 18% and 73.2% of the external, with a median of 38%. These could hardly occur in practice—except for treated air facilities. If construction periods are long, this durability issue would be applicable even for treated air facilities. Higher differences in clear cover between internal and external faces, and higher external chloride exposure – both call for larger reduction of chloride exposure from external to internal. Unless the members are designed for corrosion as specified in some (Japanese) codes, the authors advocate the conservative option of using the same cover for all faces of concrete members to achieve a lower life cycle cost of the facility. Practical Applications: Design codes across the world can be interpreted in favor of different clear covers (to reinforcement) on different faces of concrete members according to exposure conditions. Only the Australian and New Zealand codes specifically mention different clear covers for internal and external faces, by the authors' interpretation. This article examines the durability of concrete members with different clear covers on internal and external faces, with case studies generated from a few international codes. The results indicate that in such cases, corrosion cracks might occur on internal surfaces much earlier than the external surfaces. For cracks to occur simultaneously on both surfaces, the internal surface chloride concentration must be as low as 18% of the external, which is difficult to ensure in practice. Early internal cracks could be hidden from view on account of equipment or false ceiling/panels—thereby causing more damage before detection. They would be difficult to detect, to evaluate, and to carry out structural repairs. Therefore, it could be expensive to maintain and could adversely affect the service life of the structure. This study would sensitize the clients, regulators, and engineers to these concerns. The authors suggest that the conservative approach of the same clear cover may be adopted on all faces, according to the worst exposure on any face, to ensure the durability of the concrete structures. [ABSTRACT FROM AUTHOR]

Published

2024

14. Wave trapping by porous breakwater near a rigid wall under the influence of ocean current.

Author

Swami, Kailash Chand and Koley, Santanu

Subjects

*OCEAN currents, *WAVE forces, *WAVE energy, *BREAKWATERS, *WATER waves, *SEA-walls, *OCEAN energy resources

Abstract

The present work investigates the water wave interaction with bottom-standing thick porous trapezoidal-shaped structures and shore-side vertical rigid wall in the presence of uniform ocean currents. This study has been done to understand the impact of different physical parameters like friction, porosity, and ocean currents along with different structural parameters (width and height) on different phenomena like wave energy reflection, wave forces, wave energy dissipation, etc. The quadratic boundary element method-based numerical technique has been used to solve the boundary value problem. The structural porosity is modeled using Sollitt and Cross's model of water wave interaction with thick porous structures. Several results associated with the wave energy reflection and energy dissipation have been analyzed. Also, the wave force exerted by the incoming waves has been investigated to check the stability and sustainability of the right vertical rigid wall and porous structure. The Doppler-shift effect is observed in wave transformation characteristics due to the presence of ocean currents. The impact of following and opposing ocean currents can be seen in the graph of wave energy reflection, dissipation, and wave forces. The periodic patterns can be observed clearly in wave characteristics like wave energy reflection, dissipation, and wave forces when plotted against the non-dimensional separation gap between the porous breakwater and shore-side rigid seawall. [ABSTRACT FROM AUTHOR]

Published

2024

15. The Impact of Climate Change on Coastal Erosion: A Comparative Study of Vulnerable Regions.

Author

Iqubal, Md. Asif

Subjects

COASTAL changes, CLIMATE change adaptation, BEACH nourishment, SEA-walls, ENVIRONMENTAL research, WETLAND conservation

Abstract

This study explores the impacts of climate change on coastal erosion, focusing on how rising sea levels, increased storm intensity, shifting ocean currents, and human activities contribute to the accelerated loss of coastal land. Through a comparative analysis of vulnerable regions--South Pacific Islands, Gulf Coast (USA), Coastal Bangladesh, and the East African Coast--the research highlights the environmental, socioeconomic, and cultural consequences of erosion. It emphasizes the urgent need for comprehensive mitigation strategies, including engineering solutions (e.g., sea walls, groynes, artificial reefs), nature-based measures (e.g., mangrove restoration, beach nourishment, wetland conservation), and robust policy frameworks. The findings underscore that while engineering solutions offer immediate protection, nature-based approaches provide sustainable, long-term resilience by restoring ecosystems and supporting biodiversity. Effective policy and governance, supported by international collaboration and local engagement, are crucial to implementing adaptive strategies that address both regional vulnerabilities and global challenges. This research aims to contribute to a better understanding of coastal erosion dynamics and inform policies that enhance coastal resilience against the impacts of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

16. Wave dissipation effect of a new combined breakwater and its protective performance for coastal box girder bridges.

Author

Leng, Shuangjin, Xue, Shihao, Jin, Yuanjie, Xu, Guoji, and Xie, Weibo

Subjects

BOX girder bridges, BREAKWATERS, SUBMERGED structures, COMPUTATIONAL fluid dynamics, FLOATING bodies, OFFSHORE structures, SEA-walls

Abstract

Breakwaters play an important role in in mitigating wave-induced damage to marine structures. However, conventional submerged breakwaters often exhibit limited wave dissipation capabilities, while floating breakwaters may lack adequate safety performance. Therefore, this study introduces a novel combined breakwater design aimed at addressing the shortcomings of both traditional types. The proposed breakwater integrates a floating structure with a trapezoidal submerged breakwater via an anchor chain connection. To evaluate its efficacy, numerical simulations of wave interactions with structures were conducted using the OpenFOAM computational fluid dynamics (CFD) software in a two-dimensional (2D) numerical flume. Dynamic mesh technology was employed to simulate the motion of the floating body, and the resulting wave loads on a box girder bridge deck positioned behind the breakwater were analyzed to assess the combined breakwater's protective capabilities and influencing factors. Analysis of wave heights and loads on the bridge deck revealed that the combined breakwater outperformed traditional submerged breakwaters in terms of wave dissipation. Furthermore, it was observed that the protective efficacy of the combined breakwater was more sensitive to variations in the size of the floating body compared to the submerged structure, and more responsive to changes in wave period than wave height. Leveraging the ability of the floating body to attenuate waves near the surface and the enhanced impact resistance provided by the combined floating and submerged structures, the proposed breakwater offers a promising approach to improving wave attenuation performance and enhancing safety for coastal infrastructure. [ABSTRACT FROM AUTHOR]

Published

2024

17. Analysis of the structural response and strengthening performance of prefabricated substation walls under flood loads.

Author

Han Yao, Liang Zhang, Qing Wang, Huina Han, Fengkai Han, and Li Tian

Subjects

SEA-walls, FLOOD warning systems, FLOW velocity, WATER levels, DISPLACEMENT (Psychology), FLOOD damage prevention, FLOOD risk

Abstract

Introduction: The study focuses on evaluating the reliability of prefabricated perimeter walls in substations during flood events. It employs a sophisticated numerical model based on actual engineering data to assess their load-bearing capabilities. The research investigates the impact of crucial flood parameters on the structural behavior of these walls, examines the force transmission mechanisms, and suggests "W-shaped" reinforcement techniques to mitigate stress-related issues. Methods: To meet our research goals, we developed an extensive numerical model for prefabricated perimeter walls, incorporating real-world engineering data. This model enabled us to analyze critical flood parameters, such as flood depth, flow velocity, and flood erosion. Furthermore, we investigated the force transmission mechanisms within the walls and introduced "W-shaped" reinforcement strategies to improve their load-bearing capacity. Results: Our results indicate that flood depth and flow velocity have a substantial impact on the performance of prefabricated perimeter walls, while flood erosion has a minor effect. Safety concerns become prominent when flood depth exceeds 1.0 m or flow velocity surpasses 3 m per second. Analysis of force transmission mechanisms reveals greater displacements at higher water levels. Critical areas, including wall panel-column and wall panel-foundation connections, experience heightened stress levels. Discussion: Our study highlights the significant role of flood depth and flow velocity in evaluating the load-bearing capacity of prefabricated perimeter walls in substation environments. To address potential structural weaknesses, we recommend implementing "W-shaped" wall reinforcement methods, which efficiently decrease both displacement and stress. These findings carry implications for substation design and flood resilience, underscoring the importance of comprehensive flood risk management strategies to protect internal facilities during floods. [ABSTRACT FROM AUTHOR]

Published

2024

18. Study on Shear Behavior and Damage Simulation of Masonry Walls Considering the Effect of Long-term Flood Immersion.

Author

Chenhu Lu, Chao Wang, Mengxue Ma, Daoyong Wang, and Bo Song

Subjects

*DETERIORATION of materials, *SEA-walls, *MASONRY, *CONSTRUCTION materials, *FLOOD warning systems, *WALLS, *FLOOD damage

Abstract

Floods can cause masonry buildings to become immersed for a long period of time, which causes the building materials to deteriorate and thus affects the safety performance of the structure. In this study, a long-term-immersed masonry wall was considered as the research object and a cohesive element containing damage evolution was used to simulate the mortar layer, establish a finite-element model of the separated masonry wall and perform numerical loading experiments. Data on crack width variation in the masonry wall was extracted using Python. The effect of a long-termwater-immersion environment on the shear performance of masonry walls was analyzed considering material deterioration. The results show that long-term flooded masonry walls are characterized by low shear capacity and low stiffness and safety reserves cannot be guaranteed. A partially immersed masonry wall is prone to damage from the weak parts and has a high risk coefficient. The macro-damage degree of a masonry wall immersed by a flood is not as serious as that of the original wall in the early stage, but it suddenly increases in the collapse stage and the warning effect of cracks is reduced, which requires special attention in safety assessments. [ABSTRACT FROM AUTHOR]

Published

2024

19. Multi-Point Seawall Settlement Prediction with Limited Data Volume Using an Improved Fractional-Order Grey Model.

Author

Qin, Peng, Cheng, Chunmei, Meng, Zhenzhu, Ding, Chunmei, Zheng, Sen, and Su, Huaizhi

Subjects

*GENETIC algorithms, *GENETIC models, *MODEL theory, *SEA-walls, *TIME series analysis

Abstract

Settlement prediction based on monitoring data holds significant importance for engineering maintenance of seawalls. In practical engineering, the volume of the collected monitoring data is often limited due to the restrictions of devices and engineering budgets. Previous studies have applied the fractional-order grey model to time series prediction under the situation of limited data volume. However, the performance of the fractional-order grey model is easily affected by the inappropriate settings of fractional order. Also, the model cannot make dynamic predictions due to the characteristic of fixed step size. To solve the above problems, in this paper, the genetic algorithm with enhanced search capabilities was employed to solve the premature convergence problem. Additionally, to solve the problem of the fractional-order grey model associated with fixed step size, the real-time tracing algorithm was introduced to conduct equal-dimensionally recursive calculation. The proposed model was validated using monitoring data of four monitoring points at Haiyan seawall in Zhejiang province, China. The prediction performance of the proposed model was then compared with those of the fractional-order GM(1,1), integer-order GM(1,1), and fractal theory model. Results indicate that the proposed model significantly improves the prediction performance compared to other models. [ABSTRACT FROM AUTHOR]

Published

2024

20. Vitamin E Regulates the Collagen Contents in the Body Wall of Sea Cucumber (Apostichopus japonicus) via Its Antioxidant Effects and the TGF-β/Smads Pathway.

Author

Wang, Zitong, Xu, Rujian, Yang, Hongbing, Li, Ruixue, Ding, Jun, Chang, Yaqing, and Zuo, Rantao

Subjects

APOSTICHOPUS japonicus, VITAMIN E, SEA cucumbers, SEA-walls, SUPEROXIDE dismutase, OXIDANT status

Abstract

A 70-day feeding experiment was performed to investigate the effects of dietary vitamin E at different addition levels (0, 100, 200, and 400 mg/kg) on the growth, collagen content, antioxidant capacity, and expressions of genes related to the transforming growth factor beta (TGF-β)/Sma- and Mad-related protein (SMAD) signaling pathway in sea cucumbers (Apostichopus japonicus). The results showed that the A. japonicus in the group with 200 mg/kg vitamin E exhibited significantly higher growth rates, hydroxyproline (Hyp) and type III collagen contents, and superoxide dismutase (SOD) activity, as well as the upregulation of genes related to Tenascin, SMAD1, and TGF-β. Additionally, the A. japonicus in the group with 100 mg/kg vitamin E exhibited significantly higher body-wall indexes, denser collagen arrangements, improved texture quality, higher activities of glutathione peroxidase (GSH-Px) and peroxidase (POD), as well as the upregulation of genes related to collagen type I alpha 2 chain (COL1A2), collagen type III alpha 1 chain (COL3A1), and Sp-Smad2/3 (SMAD2/3). In contrast, the A. japonicus in the group with 400 mg/kg vitamin E showed a decrease in the growth rates, reduced Hyp contents, increased type I collagen contents, collagen fiber aggregation and a harder texture, along with the downregulation of genes related to the TGF-β/SMAD signaling pathway. Furthermore, the A. japonicus in the group with 400 mg/kg exhibited oxidative stress, reflected by the lower activities of SOD, GSH-Px, and POD. These results indicated that A. japonicus fed diets with the addition of 100–200 mg/kg vitamin E had improved collagen retention and texture quality by increasing the activities of antioxidant enzymes and the expressions of genes in the TGF-β/SMAD signaling pathway. However, the excessive addition of vitamin E (400 mg/kg) induced oxidative stress, which could increase the collagen degradation and fibrosis and pose a threat to the growth and texture quality of A. japonicus. [ABSTRACT FROM AUTHOR]

Published

2024

21. THE PROGRESSIVE WAY TO SAVE CITIES FROM SUPERSTORMS.

Author

Dembicki, Geoff

Subjects

*FLOOD control, *DISASTER resilience, *EMERGENCY management, *SEA-walls

Abstract

The article proposes a progressive approach to climate fortification and to save U.S. cities from superstorms. Topics discussed are tension between the Army Corps of Engineers' mission to protect valuable real estate and its neglect of areas that do not meet the criteria, deflation of the housing market by government disinvestment and discriminatory policies, flood protection infrastructure and seawall proposals of the Army Corps and rebuilding efforts after disasters.

Published

2023

22. "Oh, I do like to be beside the seaside".

Author

EVASON, DAN

Subjects

SEA-walls, INDIGO, MODELS & modelmaking, WATER waves, ACRYLIC painting

Abstract

The article focuses on the enduring popularity of British seaside destinations during the summer, highlighting how railways historically capitalized on this by running frequent excursions to coastal resorts across the country. It emphasizes the ongoing appeal of these "bucket and spade specials" today, showcasing how coastal locations continue to attract daytrippers and model railway enthusiasts alike.

Published

2024

23. Field Test: Minelab X-Terra Elite.

Author

Gayler, Adrian

Subjects

SILVER coins, AGRICULTURAL equipment, SEA-walls

Abstract

This article is a review of the Minelab X-Terra Elite metal detector. The author received the X-Terra Elite Expedition Pack, which includes the machine, coils, and headphones. They tested the detector in different soil types, conditions, and beach detecting. The X-Terra Elite has a mid-range build quality, a three-year warranty, and features like multi-IQ technology and wireless audio. The author found the machine to be powerful and versatile, suitable for both beginners and experienced detectorists. They were impressed with its performance in various environments and concluded that it is a reliable and effective detector for its price range. [Extracted from the article]

Published

2024

24. ESTABLISHING PATTERNS OF CHANGE IN THE COEFFICIENTS OF REFLECTION, TRANSMISSION, AND DISSIPATION OF WAVE ENERGY DEPENDING ON PARAMETERS OF A PERMEABLE VERTICAL WALL.

Author

Onyshchenko, Artur, Kovalchuk, Vitalii, Voskoboinick, Volodymyr, Voskobiinyk, Andrii, Aksonov, Sergii, Trudenko, Denys, and Hrevtsov, Serhii

Subjects

GRAVITY waves, WAVE energy, REFLECTANCE, ENERGY dissipation, EXTREME value theory, SEA-walls

Abstract

The object of research is permeable vertical walls (breakwaters) with different degrees of permeability. This paper reports the results of experimental research into the interaction of gravity waves with models of permeable vertical walls (breakwaters), which were formed from cylindrical piles of circular cross-section. With the help of visual and instrumental studies, the features of interaction of surface gravity waves with permeable vertical walls of different permeability have been identified. The degree of wave transformation by these walls was also determined in the form of reflection, transmission, and dissipation coefficients of wave energy. It was established that with a decrease in the permeability of the vertical wall and an increase in the steepness of the initial wave and a decrease in its period, the height of the reflected wave increased. The pattern of the transmitted wave height had the opposite trend. It was determined that the wave reflection coefficient increased with a decrease in the permeability of the vertical wall and the steepness of the initial wave. The wave transmission coefficient had the opposite trend, namely, it increased with increasing wall permeability and with decreasing steepness of the initial wave. The gravity wave energy dissipation coefficient decreased with increasing vertical wall permeability, but for waves with a significant steepness hi/λ>0.038, a decrease in the wave energy dissipation coefficient was observed for walls with low permeability and the appearance of extreme values of this coefficient. Thus, features in the interaction of surface gravity waves with permeable vertical walls (breakwaters) of different permeability have been researched and the degree of wave transformation by these walls has been determined, which could make it possible to effectively design and operate permeable vertical walls as coastal protection structures. [ABSTRACT FROM AUTHOR]

Published

2024

25. Population size and movement ecology of intertidal gastropods on rocky shores and seawalls in Singapore.

Author

Yeo, Hannah H J, Loke, Lynette H L, and Todd, Peter A

Subjects

*INTERTIDAL ecology, *SEA-walls, *INTERTIDAL zonation, *GASTROPODA, *COASTAL development, *SPECIES diversity

Abstract

Increasing coastal development and global warming have resulted in large-scale habitat changes, with artificial coastal structures replacing extensive tracts of natural shores. In Singapore, for example, more than 63% of the natural coastline has been replaced by seawalls. Multiple studies from both temperate and tropical regions have compared species diversity supported by these artificial structures with natural rocky shores. Few, however, have estimated and compared the population size and movement of common intertidal species between these two habitat types. Using mark–recapture techniques, this study investigated: (1) the population size of three common gastropod genera (Nerita spp. Trochus spp. and Turbo spp.) and (2) differences in displacement of Nerita spp. and Trochus spp. two common species found on natural rocky shores and seawalls in Singapore. The results of our mark–recapture surveys indicated that seawalls supported large densities of Nerita spp.—more than 50 times greater than that on adjacent rocky shores. The mark–recapture data also revealed that movement of the gastropod species differed between the two habitats, with individuals on seawalls generally travelling longer distances. [ABSTRACT FROM AUTHOR]

Published

2024

26. Experimental investigation into the effects of strong winds on the transport of overtopping water mass over a vertical seawall.

Author

Inagaki, Naoto, Shibayama, Tomoya, Nakamura, Ryota, Ishibashi, Kunihiko, and Esteban, Miguel

Subjects

*WATER masses, *WIND waves, *WATER waves, *WIND pressure, *WIND tunnels, *SEA-walls

Abstract

Hydraulic experiments using a wave flume with a wind tunnel at a scale of 1/40 were carried out to investigate the effect of wind on wave overtopping of a vertical seawall. To ascertain the possible effects of wave breaking, incident waves with various wave steepness (0.0102 to 0.0371) and three kinds of wind forcing (0 m/s, 6.84 m/s, 10.04 m/s) were used. The authors found that winds significantly increased the overtopping rate in general, and that there is a clear relationship between the overtopping rate and the wave steepness. Velocity fields obtained from PIV analysis revealed that the onshore winds directly enhanced the transport of overtopping water mass. The influence of the wind on the wave hydrodynamic processes that indirectly have an effect on the overtopping rate (such as the formation of a partially standing wave, breaker location, and breaker type) is also discussed. The perspective of treating wave overtopping as a transport of water mass could provide a novel understanding of complex fluid behavior, which would help to formulate countermeasures against future disasters influenced by intensive wind forcing. [ABSTRACT FROM AUTHOR]

Published

2024

27. Vertical Distribution of Rip Currents Generated by Intersecting Waves in a Sandbar–Groin Systems.

Author

Wang, Yan, Zou, Zhili, Liu, Zhongbo, and Song, Meixia

Subjects

RIP currents, CURRENT distribution, FLOW velocity, SEA-walls, SAND bars, GROIN

Abstract

To analyze the impacts of groins, sandbars, and channels on the three-dimensional features of rip currents, we conducted experimental investigations on the vertical distribution of rip currents under intersecting waves along barred beaches with channels. This study employed ADV flow velocity measurements at two distinct locations: within channel and on a sandbar. The results indicate that in nodal sections within channel and on a sandbar, the rip head region manifests surface flow characteristics, characterized by high velocities near water surface. In a rip neck location, the vertical distribution of rip currents on a sandbar exhibits greater variability, whereas within channel, the distribution is more homogeneous. The vertical distribution of rip currents in nodal sections within channel aligns with the logarithmic distribution law. The vertical distributions of the alongshore velocity of rip currents display a consistent pattern of higher at the top and lower at the bottom. However, this pattern varies slightly depending on the wave period. The presence of groins influences the fluctuation characteristics of the alongshore velocity of rip currents by regulating the nearshore circulation system. This results in the alongshore velocity of rip currents in channel pointing towards the groin. In contrast, the alongshore velocity of rip currents on sandbar, situated farther away from groin, exerts a weaker effect on the alongshore velocity of a rip current. [ABSTRACT FROM AUTHOR]

Published

2024

28. Oblique wave trapping by a permeable wall breakwater connected with thick surface porous layer.

Author

Dhanunjaya, E., Venkateswarlu, V., and Rayudu, E. Sanjeeva

Subjects

BREAKWATERS, EIGENFUNCTION expansions, POTENTIAL flow, GRAVITY waves, WAVE energy, SEA-walls

Abstract

The reflection of surface gravity waves by a vertical wall breakwater connected with a thick surface porous layer is analysed under the framework of potential flow theory. The thick surface porous layer is placed within the confined space available between the vertical permeable wall and the impermeable seawall. The analytical investigation is progressed by creating the hidden water chamber beneath the surface porous layer. The Matched Eigenfunction Expansion Method (MEEM) is used based on the continuity of velocity and pressure along with orthogonal mode-coupling relation. The hidden water chamber will be helpful to enhance the trapping of incident wave energy and also to reduce the quantity of construction material. The present study results are well agreed with the results available in the literature when a hidden water chamber is absent. The effect of permeable wall porosity, thick surface layer porosity, angle of wave contact, depth of the surface porous layer, thickness of the permeable wall, and hidden chamber spacing on wave reflection against incident wave properties and breakwater physical properties are studied. A comparative study is performed between three different types of porous breakwaters to investigate the integrity of the proposed breakwater. The minor value of wave reflection and gradual reduction of fluid force experienced by the rigid wall is achieved due to the presence of a surface layer, which maximises the incident wave damping, as most of the wave energy propagates near the free surface. [ABSTRACT FROM AUTHOR]

Published

2024

29. Deep Blue.

Author

Abbott, Elizabeth

Subjects

POOR communities, ECONOMIC recovery, TEACHERS, SEA-walls, MAKEUP artists

Abstract

"Deep Blue" is a drama film that explores the dangers of land development on a small island surrounded by dying coral reefs. The film follows the story of a star-crossed love affair between an architect overseeing the development of a luxury hotel and a marine biologist who supports local environmentalists. The film highlights the negative impacts of deforestation, the construction of a golf course, and the vulnerability of the island to environmental disasters. It also emphasizes the importance of preserving the environment and the resistance against the hotel development led by the Rastafarian community. The film's low budget production showcases the challenges faced by filmmakers in disadvantaged societies. Overall, "Deep Blue" serves as a valuable contribution to the environmentalists' cause and raises awareness about similar issues faced by island nations. [Extracted from the article]

Published

2024

30. Relative predation intensity of an intertidal gastropod on artificial coastal defense structures.

Author

Yeo, Hannah H. J., Yeo, Jing Ying, and Todd, Peter A.

Subjects

*PREDATION, *URBAN ecology, *SNAILS, *SNAIL shells, *GASTROPODA, *SEA-walls, *FIELD research

Abstract

Despite seawalls becoming ubiquitous coastal features, and having some physical similarities to natural rocky shores, it remains unclear how these urban habitats influence predator–prey interactions. Predators can affect intertidal mobile prey densities through two pathways: (1) successful predation directly influences prey mortality rates, and (2) direct and indirect effects of predation can scare and induce motile prey to seek safer areas. In this study, we investigated whether intertidal predators affect the density of the marine gastropod, Nerita undata, at four seawall sites in Singapore. Using a tethering method that we developed, we monitored the mortality and other evidence of predation (shell state) of tethered N. undata. Field experiments revealed high (22.5%–82.5%) predation potential of N. undata across the four sites, with significantly higher predation risk at lower shore heights and for snails with mixed shell coloration. Observations and analysis of the shell state after 3 days showed that predation on seawalls was primarily by crushing predators such as fish. Other predators of N. undata include predatory snails, with various feeding methods that left behind different predator signatures. Our results add substantially to the limited knowledge on predator–prey interactions on seawalls, particularly for Nerita undata, and suggest that seawall systems are more dynamic than previously thought. This further highlights the role of these artificial structures as important habitats and feeding grounds in urban coastal ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

31. Wave Basin Tests of a Multi-Body Floating PV System Sheltered by a Floating Breakwater.

Author

van der Zanden, Joep, Bunnik, Tim, Cortés, Ainhoa, Delhaye, Virgile, Kegelart, Guillaume, Pehlke, Thomas, and Panjwani, Balram

Subjects

*PHOTOVOLTAIC power systems, *MULTIBODY systems, *BREAKWATERS, *RELATIVE motion, *AXIAL loads, *SEA-walls

Abstract

The development of floating photovoltaic systems (FPV) for coastal and offshore locations requires a solid understanding of a design's hydrodynamic performance through reliable methods. This study aims to extend insights into the hydrodynamic behavior of a superficial multi-body FPV system in mild and harsh wave conditions through basin tests at scale 1:10, with specific interest in the performance of hinges that interconnect the PV panels. Particular effort is put into correctly scaling the elasticity of the flexible hinges that interconnect the PV modules. Tests of a 5 × 3 FPV matrix are performed, with and without shelter, by external floating breakwater (FBW). The results show that the PV modules move horizontally in the same phase when the wave length exceeds the length of the FPV system, but shorter waves result in relative motions between modules and, for harsh seas, in hinge buckling. Relative motions suggest that axial loads are highest for the hinges that connect the center modules in the system and for normal wave incidence, while shear loads are highest on the outward hinges and for oblique incidence. The FBW reduces hinge loads as it attenuates the high-frequency wave energy that largely drives relative motions between PV modules. [ABSTRACT FROM AUTHOR]

Published

2024

32. The Legal Crisis Within the Climate Crisis.

Author

Nevitt, Mark

Subjects

*CLIMATE change, *PUBLIC officers, *CLIMATOLOGY, *SEA-walls, *COASTS

Abstract

Climate change creates a difficult choice for property owners and governmental officials alike: Should they invest in costly climate adaptation measures or retreat from climate-exposed areas? Either decision is fraught with legal uncertainty, running headfirst into antiquated legal doctrines designed for a more stable world. Climate impacts to the coastline are forcing policymakers to consider four adaptation tools: (1) resisting climate impacts by building sea walls and armoring the shoreline; (2) accommodating those impacts by elevating existing structures; (3) managed retreat such as systematically and preemptively moving people out of harm's way; and (4) reactively moving people to new locations following natural disasters. This final tool of unmanaged retreat has emerged as the default "strategy." However, longstanding property and tort law doctrines--developed when there was a more stable physical environment--are poised to thwart these tools. In this Article, I argue that just as climate change destabilizes the physical environment, legal doctrine is also ripe for destabilization. Using coastal zone adaptation challenges as a touchpoint, I show how legal doctrines designed for a more stable physical environment constrain climate adaptation efforts. For example, if governments invest in armoring measures, they will confront physical takings jurisprudence that mandates just compensation. The duty to repair and maintain--a mixed question of property and tort law--complicates disinvestment by states and localities from coastal roads and their retreat from coastal areas. Legal doctrine needs to adapt to meet the climate moment. Absent a doctrinal change, climate adaptation will default to unmanaged retreat--an ad hoc, reactive, and disjointed "strategy" that exacerbates existing inequalities. [ABSTRACT FROM AUTHOR]

Published

2024

33. Perception and Reality: How the Depths of the High Waters in Venice Apparently Change with the Reference System.

Author

Camuffo, Dario

Subjects

STORM surges, SEA level, SEA-walls, WATER depth, HISTORICAL markers, LAND subsidence

Abstract

Over the centuries, the depths of the most severe storm surges that have flooded Venice have been measured using different reference frames, i.e., related to the algae belt (CM), mean sea level (MSL), local land (ZMPS), large-scale leveling (IGM), and satellite altimetry (SA). Some reference frames, i.e., IGM and SA, are absolute, while the others are relative and represent two different physical points of view, i.e., CM and MSL refer to the sea that is rising and ZMPS refers to the land that is subsiding. The perceptions derived from the different systems are contradictory. This paper discusses and compares surges from 1821 to 2021 measured with these frames, also including the commemorative plaques that report the flood depths on walls in Venice. The paper explains the consequences of a change in frame and zero reference, and it transforms the flooding depths from the original systems to make them homogeneous. The severity of flooding changes in terms of rating with the choice of frame. In the 19th century, five storm surges exceeded the famous level of 1966 and, if they were to recur today or in the future, the sea level rise and the local land subsidence that have occurred in the meantime would greatly exacerbate the situation. [ABSTRACT FROM AUTHOR]

Published

2024

34. A modified weakly compressible smoothed particle hydrodynamics mixture model for accurate simulation of wave and porous structure interaction.

Author

Zhang, Guibin, Tang, Danling, Wen, Hongjie, and Chen, Jianyun

Subjects

*HYDRODYNAMICS, *WATER waves, *THEORY of wave motion, *SUBMERGED structures, *SEEPAGE, *SIMULATION methods & models, *SEA-walls, *RIVER channels

Abstract

In this study, a modified weakly compressible smoothed particle hydrodynamics (WCSPH) mixture model was developed to more accurately simulate the interaction between waves and porous structures. In this model, we enhanced the governing equations of the traditional WCSPH mixture model by introducing Darcy velocity, apparent density, and an adjustable smoothing length. This refinement ensures that the modified model effectively maintains the conservation of fluid volume in seepage simulations. Additionally, this paper proposes a permeable interface treatment technique that replaces traditional smoothed particle hydrodynamics interpolation with finite element shape function interpolation, significantly enhancing computational efficiency. At the same time, we also introduced and revised a particle shifting technique, which further increases the computational precision of the model. The modified WCSPH mixture model was then applied to simulate several physical experiments, including the dam-break wave propagation in a permeable dam, the attenuation of solitary waves on a permeable riverbed, the propagation of the solitary wave on a submerged porous structure, and the breaking process of waves passing through permeable breakwaters. Through comparison with the experimental data and other numerical results, the current model was comprehensively verified from various aspects, such as fluid volume conservation, wave evolution in and around the porous structure, and pressure distribution characteristics. The results confirm the excellent performance of the current model in simulating the interaction between waves and porous structures. [ABSTRACT FROM AUTHOR]

Published

2024

35. Looking good.

Author

Walmsley, Ian

Subjects

RAILROAD design & construction, SEA-walls, ENGINEERS, INTELLECTUAL property, ENGINEERING design, ROLLING stock

Published

2024

36. The Class 57 Story: Part 2.... The 57/3s.

Author

Christie, Antony

Subjects

LOCOMOTIVES, ALTERNATING current generators, TRACTION motors, SEA-walls

Abstract

The article discusses the Class 57/3 locomotives used by Virgin Trains to modernize the West Coast Main Line. These locomotives were created by Porterbrook Leasing and were used to rescue failed train sets or haul Pendolino sets when the power equipment was isolated. The fleet of Class 57/3s has been transferred to other operators and used for various purposes, including charter services and powering log trains. The article also mentions the availability of model versions of the locomotives. [Extracted from the article]

Published

2024

37. Deep dive in to exposure lock.

Author

WORLEY, BRIAN

Subjects

DEPTH of field, FOCAL length, TELECOMMUNICATION, SEA-walls, DOG walking

Abstract

This article from PhotoPlus covers various topics related to Canon cameras and photography techniques. It discusses exposure lock and its different applications, such as ambient light and flash exposure lock. The article also provides tips for taking good pictures at a zoo, dealing with cage bars or mesh, and capturing subjects with a blurred background. Additionally, it addresses specific questions about Canon camera models, lenses, and shooting techniques. The article concludes with a discussion about a photograph that appears to show a ghostly figure in the waves. Overall, the article offers practical advice and technical information for photographers using Canon cameras. [Extracted from the article]

Published

2024

38. Checking out the latest hotel & resort news.

Author

RUPPENSTEIN, ANN

Subjects

RESORTS, SEA-walls, HOTEL suites, PHYSICAL fitness centers, HOTELS, PLACE marketing

Abstract

This article provides an overview of the latest hotel and resort news. &Beyond is expanding its lodge circuit in Kenya with the opening of the Beyond Suyian Lodge in July 2025. Riu has opened its seventh hotel in Jamaica, the Riu Palace Aquarelle, which offers swim-up suites and a variety of dining options. Kempinski Hotels has announced plans to launch its first property in Vietnam, the Kempinski Saigon River, which will offer 100 rooms and suites. Additionally, Alaia Belize, Autograph Collection, has undergone a significant renovation and expansion, including a new spa and conference center. [Extracted from the article]

Published

2024

39. The Gallery.

Subjects

SEA-walls, SOCIAL space

Abstract

The Urban Photo Awards, organized by dotART in Trieste, Italy, is a photography contest open to both amateur and professional photographers. The 14th edition of the awards is divided into four sections: Streets, People, Spaces, and Creative, with the theme of "Urban Life: Urban Photography." The contest explores the concept of modernity in urban environments, the contrasts between city and countryside, and the aesthetic and architectural aspects of cities. The winning photographs were showcased at an awards ceremony held at the Revoltella Museum in Trieste. [Extracted from the article]

Published

2024

40. How Do Structural Safety, Ecological Functions and Social Development Influence Construction of Ecological Seawalls for Coastal Protection and Sustainability?

Author

Qin, Peng, Jiang, Yong, and Cheng, Chunmei

Subjects

SEA-walls, SOCIAL influence, SOCIAL development, SOCIAL skills, SUSTAINABILITY, MULTIPLE criteria decision making

Abstract

With rising sea level and climate change, coastal protection against natural hazards such as typhoons and storm surges becomes increasingly important in densely populated areas. Yet, how to integrate necessary engineering structures for coastal protection with development of a healthy socio-ecological system represents a realistic question challenging both the science community and practitioners. This study is motivated to examine the role and influence of diverse dimensions in the construction of seawalls for coastal protection and sustainability. Focusing on a case along the Qiantang River in China, we structured an indicator framework based on technical standards and literature for guiding the design and construction of ecological seawalls. We explored and illustrated the application of a multi-criteria decision making (MCDM) method to analyze proposed indicators as design factors and their influence in practice as reflected by expert evaluation. Our empirical analysis revealed a heterogeneous role and influence of different indicators and their asymmetric interaction in seawall construction aimed to deliver structural safety, ecological functions and social development. This study provides important insights into the design and management of seawalls as an integrated, nature-based solution for coastal protection and sustainability, informing practice improvement and contributing to the literature. [ABSTRACT FROM AUTHOR]

Published

2024

41. REDUCING BARRIERS TO LIVING SHORELINES THROUGH SEA GRANT EXTENSION PROGRAMS.

Author

Martin, Sara, Barry, Savanna C., Ubeda, Armando J., Encomio, Vincent, Clark, Mark W., O'Connor, Rick, Baily, Mandy S., and Sparks, Eric

Subjects

*SHORELINES, *ECOSYSTEM services, *SEA-walls, *TECHNICAL assistance

Abstract

Natural shorelines provide ecosystem services that are integral to maintaining healthy and resilient coastal ecosystems and communities. However, anthropogenic and environmental stressors are reducing the extent of natural shorelines, and thus, their capacity to provide critical ecosystem services. Unfortunately, the most common shoreline management strategies involve hardened structures (e.g., bulkheads and seawalls) that are known to impair coastal ecosystems. Living shorelines offer a more environmentally friendly alternative to this shoreline hardening. To increase the adoption of living shorelines, the Mississippi-Alabama Sea Grant Consortium and Florida Sea Grant have produced guidance documents, offered technical assistance, constructed demonstration sites, and hosted trainings for property owners, contractors, and other practitioners. This article summarizes those efforts, details the results that have been achieved, and outlines existing barriers to further living shoreline implementation in the region. [ABSTRACT FROM AUTHOR]

Published

2024

42. Fisher's Resilience: Preparedness, Coping Capacity, and Adaptation Capacity in Surigao del Sur, Philippines.

Author

Macusi, Edison D., Laya-og, Manilyn E., Maynawang, Imee S., and Macusi, Erna S.

Subjects

*MARINE parks & reserves, *SEA-walls, *PREPAREDNESS, *PSYCHOLOGICAL resilience, *FISHING villages, *LARVAL dispersal

Abstract

Coastal fishing communities depend on marine resources for their protein and livelihood needs, making them vulnerable to natural hazards. We assessed the exposure and adaptive capacity of six fishing villages located in three municipalities (Cortes, Lianga, Lanuza) in Surigao del Sur, Philippines by determining their resilience to various climatic hazards. We held six focus groups with 10–15 participants from each fishing community (N = 80 participants). We also conducted stakeholder meetings (N = 100 participants) to validate our findings. We used 12 indicators, divided into three components of resilience scored using a Likert scale: preparedness, coping, and adaptive capacity. We identified the important roles of good communication between community and municipality leaders, seminars and training on natural hazard awareness, livelihood alternatives, the presence of marine protected areas, and infrastructure to mitigate the impact of natural hazards (e.g., regular typhoons) such as sea walls. [ABSTRACT FROM AUTHOR]

Published

2024

43. A Breathing Sea Wall: Haikou Jiangdong Beach Park.

Author

Kongjian YU

Subjects

SEA-walls, BEACHES, URBAN runoff, DIKES (Engineering), PUBLIC spaces, RESPIRATION

Published

2024

44. The California Coast and Living Shorelines—A Critical Look.

Author

Griggs, Gary B.

Subjects

ABSOLUTE sea level change, COASTAL changes, COASTS, SEA-walls, SHORELINES

Abstract

California and most other coastlines around the world are being impacted by both long-term sea-level rise and short-term extreme events. Due to California's long and intensively developed coastline, it is an important area for evaluating responses to these challenges. The predominant historic approach to coastal erosion in California and globally has been the construction of hard coastal armoring such as seawalls and rock revetments. The concept of living shorelines—defined as using natural elements like plants, sand, or rocks to stabilize the coastline—has been widely proposed as a soft or green response to coastal erosion and flooding. However, these approaches have very limited application in high-energy environments such as California's 1100-mile-long outer coast and are not realistic solutions for protection from wave attack at high tides or long-term sea-level rise. Each of the state's coastal communities need to identify their most vulnerable areas, develop adaptation plans, and plan eventual relocation strategies in response to an accelerating sea-level rise. [ABSTRACT FROM AUTHOR]

Published

2024

45. Cost-Effective Optimization of an Array of Wave Energy Converters in Front of a Vertical Seawall.

Author

Natarajan, Senthil Kumar and Cho, Il Hyoung

Subjects

*WAVE energy, *STANDING waves, *LINEAR codes, *SEA-walls

Abstract

The present paper focuses on investigating the cost-effective configuration of an array of wave energy converters (WECs) composed of vertical cylinders situated in front of a vertical seawall in irregular waves. First, the hydrodynamic calculations are performed using a WAMIT commercial code based on linear potential theory, where the influence of the vertical wall is incorporated using the method of image. The viscous damping experienced by the oscillating cylinder is considered through CFD simulations of a free decay test. A variety of parameters, including WEC diameter, number of WECs, and the spacing between them, are considered to determine an economically efficient WEC configuration. The design of the WEC configuration is aided by a cost indicator, defined as the ratio of the total submerged volume of the WEC to overall power capture. The cost-effective configuration of WECs is achieved when WECs are positioned in front of a vertical wall and the distance between them is kept short. It can be explained that the trapped waves formed between adjacent WECs as well as the standing waves in front of a seawall significantly intensify wave fields around WECs and consequently amplify the heave motion of each WEC. A cost-effective design strategy of WEC deployment enhances the wave energy greatly and, consequently, contributes to constructing the wave energy farm. [ABSTRACT FROM AUTHOR]

Published

2024

46. Physicochemical and thermal properties of pepsin‐ and acid‐soluble collagen isolated from the body wall of sea cucumbers (Stichopus hermanni).

Author

Shaik, Mannur Ismail, Kadir, Asmaa Nuha Abdul, and Sarbon, Norizah Mhd

Subjects

*SEA cucumbers, *SEA-walls, *COLLAGEN, *THERMAL properties, *PEPSIN, *ACETIC acid, *SEAFOOD

Abstract

The main objective of this work was to characterize the acid‐soluble collagen (ASC) and pepsin‐soluble collagen (PSC) from the body wall of the sea cucumber scientifically called, Stichopus hermanni. For the extraction of ASC and PSC, the pre‐treated sea cucumber body walls were subjected to 0.5 M acetic acid and 5 g L−1 pepsin, respectively. The yield of ASC (7.30% ± 0.30%) was found to be lower than the PSC (23.66% ± 0.15%), despite both ASC and PSC having similar chemical compositions except for the quantity of protein. The collagens produced from ASC and PSC show maximum peaks on ultraviolet–visible spectroscopic profiles at wavelengths of 230 and 235 nm, respectively, with no significant difference in the maximum temperature (Tmax) of the extracted ASC and PSC. The ASC's coloration was whiter than that of the PSC. As a result, the collagen obtained from the body wall of the sea cucumber showed promise for usage as a substitute for collagen derived from marine sources. Practical Application: The two most popular methods of collagen extraction were acid hydrolysis and enzymatic hydrolysis. To determine whether the extracted collagen is a suitable substitute for animal collagen in different industries, it is required to characterize its physicochemical qualities. This study discovered a new application for marine collagen in the food industry: The sea cucumber has collagen with a greater yield in pepsin extraction with good physicochemical qualities. [ABSTRACT FROM AUTHOR]

Published

2024

47. Numerical Modeling of Wave Hydrodynamic Performance with Various Layouts of Single-Slope Floating Breakwater Arrays.

Author

Sujantoko, Djatmiko, Eko Budi, Wardhana, Wisnu, Mustain, Mahmud, and Ahidah, Diva Rahmah

Subjects

BREAKWATERS, WAVE energy, SOLAR stills, SEA-walls, THEORY of wave motion

Abstract

Floating breakwaters have been widely developed and researched to reduce wave energy experimentally and in numerical models. One aspect that is quite important in designing a floating breakwater is its layout because it will determine the transmission and the reflection of waves so that it can optimally protect the area behind it. In this research, the effect of wave transmission and reflection is studied numerically with Flow-3D on layout-I, layout-V, and layoutU of floating breakwater models. This series of models is connected with connectors so that the modules are not rigid and can move horizontally and vertically. The model simulation results show that layout-I has good wave reduction capabilities if the incident wave angle is perpendicular to the structure. However, if the wave's angle of incidence is slanted, the ability to reduce the wave is reduced. When viewed from all angles of the incident wave, the U-layout can reduce waves effectively and efficiently. During high tide conditions, the floating breakwater will work optimally in reducing wave energy and reflecting waves. However, the structure's ability to reduce and reflect waves will decrease when seawater recedes. The mooring lines become loose at low tide, so the structure quickly changes position. The impact is that the floating breakwater structure is prone to moving quickly, so incoming waves will receive additional wave propagation energy due to the movement of the structure. [ABSTRACT FROM AUTHOR]

Published

2024

48. 3D MONITORING OF COASTAL EROSION CONTROL STRUCTURES USING UAV.

Author

Sakamoto, N. and Nishiyama, S.

Subjects

COASTAL changes, OPTICAL scanners, WATER meters, GLOBAL warming, SEA level, SEA-walls

Abstract

Coastal erosion has increasingly become a problem in recent years due to rising sea levels caused by global warming. To prevent further coastal erosion and damage, control structures like seawalls and breakwaters have been installed along vulnerable coastlines. However, it is crucial that these structures are regularly and thoroughly inspected for any abnormalities or deformations. At present, inspections are done manually by visual surveys which are time-consuming and inefficient. There is great potential to optimize this process using drone technology equipped with 3D laser scanners. In this study, we utilized a drone with a green laser scanner to inspect and diagnose control structures along the coast. We conducted surveys to determine the basic performance of this approach and used ICP algorithms to extract any deformations in vanishing wave blocks over two time periods. Our results showed high variability in basic performance due to the influence of waves during the surveys. However, we were still able to detect strain of around 50 cm in a submerged breakwater located 3 meters below the water's surface. Furthermore, an overall settlement of approximately 34 cm was observed in the vanishing wave blocks along with some localized movements. This demonstrates that drones can be successfully implemented for efficient inspection, diagnosis and detection of abnormalities and deformations in coastal structures that are extremely difficult to identify through visual surveys alone. The use of this advanced technology will allow for quicker identification of at-risk structures, enabling timely maintenance and prevention of further coastal erosion. [ABSTRACT FROM AUTHOR]

Published

2024

49. Community RISES to the occasion: Inside the Rockaway Beach Coastal Restoration Project, New York City.

Author

Castagna, JoAnne

Subjects

HURRICANE Sandy, 2012, NEW York City mayors, URBAN transportation, SEA-walls, CLIMATE justice, SAND dunes, BEACH erosion

Published

2024

50. Pathfinder confirms Class 50s to Aberdeen.

Author

Dunn, Pip

Subjects

SUBWAYS, SEA-walls, PASSENGER trains, HOLIDAY shopping, STEAM locomotives

Abstract

The text discusses upcoming train tours and events for railway enthusiasts. It mentions a three-day trip to Aberdeen by Pathfinder Railtours, featuring Class 50 locomotives and covering classic routes. The text also highlights other tours, such as the return of a Class 52 Western locomotive to Weymouth and tours with the Class 40 Preservation Society's D345 locomotive in West Yorkshire. It mentions the preference some enthusiasts have for certain locomotive types and their avoidance of others. Lastly, it mentions a rare tour to Whitby with Class 20 locomotives on the Whitby branch line. [Extracted from the article]

Published

2024