Life Cycle Assessment of Railway Ground-Borne Noise and Vibration Mitigation Methods Using Geosynthetics, Metamaterials and Ground Improvement

Kaewunruen, Sakdirat; Martin, Victorin

doi:10.3390/su10103753

Cited by 26 publications

(16 citation statements)

References 37 publications

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“…Despite having no way of breaking down this daily demand into thermal and electrical demand, it is safe to assume that it will not be 100% electrical demand and there will be some thermal output required [65][66][67][68][69]. Therefore, the operating hours a day would consequently reduce once thermal energy is harnessed, as the thermal output is up to 8 times as much as the electrical for the same fuel.…”

Section: Biomassmentioning

confidence: 99%

A Digital-Twin Evaluation of Net Zero Energy Building for Existing Buildings

2018

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With buildings around the world accounting for nearly one-third of global energy demand and the availability of fossil fuels constantly on the decline, there is a need to ensure that this energy demand is efficiently and effectively managed using renewable energy now more than ever. Most research and case studies have focused on energy efficiency of ‘new’ buildings. In this study, both technical and financial viability of Net Zero Energy Buildings (NZEB) for ‘existing’ buildings will be highlighted. A rigorous review of open literatures concerning seven principal areas that in themselves define the concept of NZEB building is carried out. In practice, a suitable option of the NZEB solutions is needed for the evaluation and improvement for a specific geographical area. The evaluation and improvement has been carried out using a novel hierarchy-flow chart coupled with a Building Information Model (BIM). This BIM or digital twin is then used to thoroughly visualize each option, promote collaboration among stakeholders, and accurately estimate associated costs and associated technical issues encountered with producing an NZEB in a pre-determined location. This paper also provides a future model for NZEB applications in existing buildings, which applies renewable technologies to the building by aiming to identify ultimate benefit of the building especially in terms of effectiveness and efficiency in energy consumption. It is revealed that the digital twin is proven to be feasible for all renewable technologies applied on the NZEB buildings. Based on the case study in the UK, it can be affirmed that the suitable NZEB solution for an existing building can achieve the 23 year return period.

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Section: Biomassmentioning

confidence: 99%

A Digital-Twin Evaluation of Net Zero Energy Building for Existing Buildings

2018

Self Cite

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“…Slab tracks have the potential to be constructed with a lower initial unevenness if the correct tolerances are applied during construction [82]. A detailed evaluation of mitigation methods dedicated to the trackbed was recently conducted in [173], with the aim of life-cycle performance analysis. Transition zones can be analysed to avoid abrupt changes in the track's vertical stiffness [174,175].…”

Section: Mitigation Of Feelable Vibrationmentioning

confidence: 99%

Modelling, simulation and evaluation of ground vibration caused by rail vehicles

Thompson

Kouroussis

Ntotsios

2019

Vehicle System Dynamics

137

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There is a great need to develop rail networks over long distances and within cities as more sustainable transport options. However, noise and vibration are seen as a negative environmental consequence. Compared with airborne noise, the related problem of ground vibration is much more complex. The properties of the ground vary significantly from one location to another. There is no common assessment criterion or measurement quantity and no equivalent to the noise maps. Ground-borne vibration is transmitted into buildings and perceived either as feelable whole-body vibration or as low frequency noise; it can also affect sensitive equipment but it is generally at a level that is too low to cause structural or cosmetic damage to buildings. A review is given of evaluation criteria for both feelable vibration and ground-borne noise, empirical and numerical prediction methods, the main vehicle and track parameters that can affect the vibration levels and a range of possible mitigation methods.

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“…After the publication of European Noise Directive 2002/49/EC (END) [21], sustainability has grown towards the noise sources required by END: road and railway traffic [22][23][24], airports [25,26], and wind turbines [27,28]. For these type of noise sources, the scientific community has put a lot of effort into developing innovative and environmentally-friendly mitigations, such as low-noise pavements [29,30], live and integrated monitoring systems [31,32], sustainable metamaterial absorber [33,34], and sonic crystal noise barriers made of recycled materials [35].…”

Section: Introductionmentioning

confidence: 99%

Pass-by Characterization of Noise Emitted by Different Categories of Seagoing Ships in Ports

Fredianelli

Nastasi

Bernardini³

et al. 2020

Sustainability

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In the light of sustainability, satisfactory living conditions is an important factor for people’s positive feedback in their own living environment. Acoustic comfort and noise exposure should then be carefully monitored in all human settlements. Furthermore, it is already well-known that high or prolonged noise levels may lead to unwanted health effects. Unfortunately, while in the last decades scientists and public authorities have investigated the noise produced by roads, trains, and airports, not enough efforts have been spent in studying what happens around the coastal and port areas. Following the attention brought to the subject by recent European projects on noise in port areas, the present paper characterizes the sound power level and 1/3 octave band sound power spectrum of seagoing ships while moving at low speeds. Five different categories have been distinguished: Roll-on/roll-off (RORO), container ship, oil tanker, chemical tanker, and ferry. The analysis is based on a continuous noise measurement lasting more than three months, performed in the industrial canal of the port of Livorno (Italy). The resulting noise emissions are new and useful data that could be inserted in acoustic propagation models to properly assess the noise in the areas affected by port activities. Thus, the present work can act as a supporting tool in planning ship traffic in ports towards better sustainability.

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Life Cycle Assessment of Railway Ground-Borne Noise and Vibration Mitigation Methods Using Geosynthetics, Metamaterials and Ground Improvement

Cited by 26 publications

References 37 publications

A Digital-Twin Evaluation of Net Zero Energy Building for Existing Buildings

A Digital-Twin Evaluation of Net Zero Energy Building for Existing Buildings

Modelling, simulation and evaluation of ground vibration caused by rail vehicles

Pass-by Characterization of Noise Emitted by Different Categories of Seagoing Ships in Ports

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