Bibliografie tematiche / Concrete tower design

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Letteratura scientifica selezionata sul tema "Concrete tower design"

Autore: Grafiati
Pubblicato: 29 luglio 2024
Ultima modifica: 30 luglio 2024

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Articoli di riviste sul tema "Concrete tower design"

1

M, Ensari Yigit, Anil Ozdemir, Fethi Sermet e Murat Pinarlik. "Analysis of Offshore Wind Turbine Towers with Different Designs by Finite Elements Method". International Journal of Advanced Research in Engineering 4, n. 3 (25 settembre 2018): 1. http://dx.doi.org/10.24178/ijare.2018.4.3.01.

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Abstract (sommario):
It is known that the use of renewable energy has an increasing trend in whole world. Wind energy is one of the renewable energy types, as well is among the cleanest and most economical energy sources. Nowadays, in order to provide much more energy from wind, turbine towers are being built higher and the turbine blades have begun to be manufactured longer. Due to these applications, tower and turbine weights are continuously increasing. For this reason, it is necessary to optimize the materials used as well as the dimensions of the turbine towers. In the present study, behavior of TLP floating wind turbine towers with three different designs under wave, hydrostatic and static loads were investigated. In order to clarify the effect of these loads, turbine designs were analyzed in the ratio of 1/5 using finite elements method. Steel, reinforced concrete and hybrid (reinforced concrete and steel) wind turbine towers tied to sea floor at a depth of 10 meters rigidly by TLP floating method. In this context, 10-meter-high turbine towers having three different designs which static analyzed previously were used for investigate effects of wave and hydrostatic loads. Turbine structures analyzed with ABAQUS finite elements model. The deformations and stress values of underwater turbine structures were obtained and compared with each other. As it can be seen from analysis results, compared to the reinforced concrete design, the displacement of steel tower design decreased 77.84%. It is seen that the torsion effect was dominant in the steel tower design. However, the decreasing displacement value for steel design was recorded as 44.43% compared to the hybrid tower design.
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2

Gong, Yikai, e Martin Noël. "Finite Element Model of Concrete-Filled, Fiber-Reinforced Polymer Tubes for Small-Scale Wind Turbine Towers". CivilEng 5, n. 1 (2 febbraio 2024): 169–90. http://dx.doi.org/10.3390/civileng5010009.

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Abstract (sommario):
The finite element method was used to study the feasibility of concrete-filled, fiber-reinforced polymer tubes (CFFTs) for small-scale wind turbine towers in remote areas. Although CFFTs have been successfully employed for a variety of structural applications, their use for wind turbine towers is novel and has yet to be investigated in detail. The objective of the study was to identify, for the first time, the most important parameters for design and compare the behavior of CFFT towers versus conventional steel and concrete towers. The model was first validated using experimental results reported in the literature followed by a series of parametric studies to evaluate the importance of several key parameters. In the first phase, the effect of different geometric properties (taper and concrete filling ratio) and reinforcement configurations (FRP laminate configuration, steel reinforcement ratio, and prestressing level) were investigated for cantilever tower models with concentrated lateral loads. A 10 m high CFFT wind turbine tower model was subsequently modeled and studied under different loading configurations. The influence of the height-to-diameter (h/D) ratio on cantilever CFFT models was also studied and a conservative preliminary design that can be refined for specific turbine systems and wind conditions was adopted using the h/D ratio. The CFFT tower model was compared to concrete and steel tubular models with similar geometry to study the advantages of CFFT towers and showed that CFFTs can be an efficient alternative.
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3

Shchedrolosiev, O., O. Uzlov e K. Kyrychenko. "IMPROVING CONSTRUCTIVE AND TECHNOLOGICAL CONNECTING JOINTS OF REINFORCED CONCRETE PONTOON WITH A TRANSVERSE DIAPHRAGM AND A METAL TOWER IN A FLOATING COMPOSITE DOCK". Scientific Bulletin Kherson State Maritime Academy 1, n. 22 (2020): 142–52. http://dx.doi.org/10.33815/2313-4763.2020.1.22.142-152.

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Abstract (sommario):
The analysis of the known technical decisions in dock construction field, rationalizing production resources at composite docks construction is given. It is established that the available solutions do not specify the recommendations for lowering the metal content in the reinforced concrete pontoon of composite floating docks. As a result of the conducted research, the design of floating composite docks was improved by reducing sets in the reinforced concrete pontoon. The rationality of a pontoon design construction without installation of frames, floors, and beams under towers is substantiated. Technological recommendations for the transverse partitions installation between the inner boards in 4 spaces, i.e. in 3 meters in contrast to the classical design in which the distance between the partitions is 1.5 meters, were described. The analysis of the design features of the reinforced concrete pontoon connecting joints with the transverse diaphragm and the metal tower of the floating composite dock is carried out, the difficulties that arise are described. The design and technological recommendations for the construction of the reinforced concrete pontoon joints with the transverse diaphragm and the metal tower have been developed. The floating dock construction sequence and technological operations ensuring concrete’s strength, water tightness and frost resistance at intersection joints are described. Solutions that increase the local adhesion of concrete to cross-shaped parts and prevent its exfoliation have been developed. The traditional scheme of the composite dock construction and a structural joint of a metal tower with a reinforced concrete pontoon is given. The composite dock construction scheme and the construction scheme of the joints of the reinforced concrete pontoon with the transverse diaphragm and the metal tower, which are designed for the construction of floating composite docks with reduced metal content in the pontoon, have been improved.
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4

Gong, Cheng Lin, Hua Liu e Jian Zhang. "Study on Dynamic Properties of the Intake Tower with Finite Element Method". Applied Mechanics and Materials 501-504 (gennaio 2014): 1888–91. http://dx.doi.org/10.4028/www.scientific.net/amm.501-504.1888.

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Abstract (sommario):
Intake tower is a complex structure, which has complex boundary conditions and has complex loading situation. Intake tower is made up of reinforced concrete ,which is thin-wall hollow structure. It builds in the near the shore in the reservoir, its top bridge connects to the banks of the river, The tower is in the water and is under pressure, intake towers safety is very important under the action of earthquake. Based on the large finite element software ANSYS, the dynamic properties of the intake tower is studied, and the intake tower+ foundation is also studied. The research conclusions can be used as reference for engineering design.
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Wen, Yang, e Fei Zhou. "Time-History Analysis of Seismic Response for the Concrete-Filled Steel Tubular Wind Turbine Tower Based on Finite Element Method". Advanced Materials Research 163-167 (dicembre 2010): 2176–80. http://dx.doi.org/10.4028/www.scientific.net/amr.163-167.2176.

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Abstract (sommario):
In the article based on the geometric characteristics of the tower and force characteristics, the author designs the concrete-filled steel tube (CFST) 3 limbs column tower, and establishes finite element model of the tower. We carry on time history analysis of the concrete-filled steel tubular wind turbine tower based on finite element method when the earthquake wave is different. Under rare earthquake, the majority bars of the concrete-filled steel tube 3 limbs column tower are in the elastic stage, only a small number of bars in the top and the bottom are into the plastic phase. The post-seismic displacement at the top of tower is 1.1m which is slightly less than the tower height of 1 / 50 (1.26m) and meets the seismic requirements of the region. The analytical result may provide the foundational test data and advice for the design of the CFST wind turbine tower.
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6

Apcarian, Anabel, Gabriel Contreras, Juan Manuel Labriola e Emmanuel Quiróz. "Comparison of Alternatives for Multi-MW Wind Turbine Towers in Northern Patagonia, Argentina". Buildings 14, n. 7 (4 luglio 2024): 2045. http://dx.doi.org/10.3390/buildings14072045.

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Abstract (sommario):
The Patagonian region of Argentina has great wind potential. In this geographical area of complex terrain, the local wind is influenced by the proximity of the Andes Mountain chain, and it is very intense and turbulent. The wind profiles, turbulence intensity, and average wind speeds at the site do not meet the recommended values in the standards. This issue could have a significant impact on the design loads for structures installed in the region. The objective of this work was to compare the behavior under extreme wind load on different types of towers for multi-MW wind turbines in situ. For this, a hybrid tower, a concrete tower, and a steel tower of equal dimensions were compared. Additionally, we analyzed the influence of the cross-sectional shape of concrete on hybrid towers. The flow pattern around the structures was studied using a solid wall model. As for the towers, we implemented a stress–strain elastic analysis. We calculated the stress fields, displacement fields, and aerodynamic behavior for each tower. We conclude that hybrid towers present the most optimal behavior. Among the different cross-sectional shapes analyzed for this type of tower, we found that all of them show advantages and disadvantages, with the circular section being the one that has the highest average performance from the resistance and aerodynamic standpoint.
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7

Li, Bin, Qun Hui Zhang e Chun Yan Gao. "Numerical Simulation on the Mechanical Performance of the Wind Generator Latticed Concrete-Filled Steel Tubular Tower". Applied Mechanics and Materials 578-579 (luglio 2014): 751–56. http://dx.doi.org/10.4028/www.scientific.net/amm.578-579.751.

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Abstract (sommario):
Nonlinear finite element parameters analysis on the lattice type steel pipe concrete wind turbine tower, it shows the entire process of load bearing, failure mode and ultimate bearing capacity, researches on the influence law of aspect ratio, form of tower webs, tower diameter to thickness ratio and web member stiffness to tower column stiffness ratio on the ultimate bearing capacity and tower failure mode. The finite element analysis results shows that the tower aspect ratio λ, the diameter-thickness ratio γ of tower columns and the increase of stiffness ratio β between web members and tower columns has great influence on ultimate bearing capacity and failure mode, while the form of webs has small influence on that. with the increase of tower aspect ratio λ, the decrease of diameter-thickness ratio γ of tower columns and the increase of stiffness ratio β between web members and tower columns, the ultimate bearing capacity of this kind of latticed towers increase, the failure mode changed from Web local buckling to The combined damage of Web local buckling and the tension tower yield. This paper suggests that in the design of wind turbulent generator tower, the tower aspect ratio λ should be best controlled at 1/9, the bottom layers of this kind of tower should best use the re-divided web members, and other web member forms used on above layers, the diameter-thickness ratio γ of tower column should be taken less than 30, and the stiffness ratio β between webs and columns should be controlled less than 0.05 in order to avoid damage occurring on the tower columns earlier than the webs. The results can provide evidence for the engineering design.
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8

Belov, Vyacheslav, Evilina Galieva e Roman Verkhovskiy. "Technical and economic assessment of the possibility of using a thermal and moisture protection screen to increase the resistance of the reinforced concrete cooling tower shell to operational conditions". BIO Web of Conferences 107 (2024): 06017. http://dx.doi.org/10.1051/bioconf/202410706017.

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Abstract (sommario):
During the operation of chimney-type evaporative cooling towers which are made of monolithic reinforced concrete, the shell is exposed to various aggressive environmental influences and the carried-away part of the recycled process water leading to its premature destruction. This article illustrates a method of protecting the shell tower of a reinforced concrete cooling tower from the aggressive effects of the operating environment using a thermal and moisture protection screen design – a ventilated curtain wall with a cladding of fiberglass sheets. By the finite element method, using the ANSYS PC, a calculated analysis of temperature values and air velocity in the air gap was performed, resulting in the geometry of the air gap. To assess the overall change in the percentage of reinforcement, the corresponding strength calculations of the cooling tower shell were made with and without a thermal and moisture protection screen. Subsequently, the corresponding technical and economic analysis of the proposed design option was carried out. As a result the use of thermal moisture protection screen allows significantly redact capital costs during the construction of new cooling towers and decrease expenses for periodic major repairs in the operational cycle, thereby increasing the durability of the cooling tower.
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9

Gain, Akash Asim. "Seismic Response Evaluation for Gate-Type Twin Tower Reinforced Concrete Frame Structure". International Journal for Research in Applied Science and Engineering Technology 12, n. 5 (31 maggio 2024): 5358–69. http://dx.doi.org/10.22214/ijraset.2024.62801.

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Abstract (sommario):
Abstract: As the population increases tremendously the horizontal space in urban areas are insufficient to construct a building so it is very essential to go for vertical construction. In this research The 11 storey gate type twin tower reinforced concrete frame building having the top three floors horizontally connected is analyzed by using finite element modeling software. By using linear static and dynamic analysis, the seismic responses are computed and compared for various models such as twin towers without any connection, twin towers with one-way connection, and a gate-type twin tower structure with the top three floors connected. It examines storey drift, displacement, and base shear in seismic zone III on medium soil. The results finds that structural responses to the gate building show both decreases and slight increases when compare to without connected buildings. So By connecting twin tower buildings, not only is an innovative architectural design achieved, but a roadway between the towers can also be provided., In addition, the horizontal space at the top floors after connecting the towers can also be used for residential, commercial, and office accommodation purposes.
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Vamsi Krishna, B., P. Sudheer Kumar, Kurma Chandana, Shyamala Bhoomesh e P. Venu Gopal. "Comparative Analysis & Design of RCC & Steel Preheater Tower Structure by Using STAAD. Pro". IOP Conference Series: Earth and Environmental Science 1130, n. 1 (1 gennaio 2023): 012025. http://dx.doi.org/10.1088/1755-1315/1130/1/012025.

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Abstract (sommario):
Abstract A liquid material after water concrete is the most consuming material in the world, concrete is the most important construction material used extensively to construct buildings, dams, roads, etc. As we know that concrete is a composite material with cement, coarse & fine aggregates bonding together with water that gives hardness with time. As per the 2018 year statistics, India is the second largest producer of cement in the world with 460 million tonnes per year which is over 8% of the global installed capacity. Cement is the most important material in concrete, In India, at present, there are 120 major cement plants and nearly 300 mini cement plants are manufacturing the cement. In Cement plants ‘Preheater tower’ is used, these preheater tower consists of several cyclones, these raw materials are fed at the top of the preheater tower through cyclones it travels to the bottom of the preheater tower, each cyclone in the preheater serves as a heat exchanger and a separate. In this project, a comparative analysis & design will be done between both the RCC structure & Steel structure Preheater tower as per Indian design standards by using Staad Pro software. In this design process, the loads which are affecting the structure will be taken and designed. And also the pros & cons will be discussed between the RCC & Steel structure Preheater tower. Here the height of the RCC and steel Preheater tower taking as 110 meters. It is observed that Maximum displacements at a height of 110 mts in RCC preheater tower are 130.59 mm and Steel preheater tower is 102.238 mm. The Maximum Moment at critical load combination is more in RCC preheater tower (i.e 205.6 kN.m) than Steel preheater tower (i.e 190.1 kN.m).The Maximum shear at critical load combination is more in Steel preheater tower 62.0 kN is more than RCC preheater tower 28.7 kN.
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Più fonti

Tesi sul tema "Concrete tower design"

1

Van, Zyl Willem Sternberg. "Concrete wind turbine towers in Southern Africa". Thesis, Stellenbosch : Stellenbosch University, 2014. http://hdl.handle.net/10019.1/96021.

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Abstract (sommario):
Thesis (MEng)--Stellenbosch University, 2014.
ENGLISH ABSTRACT: Exponential growth of the global wind turbine market has led to a significant increase in the capacity of wind turbine generators. Modern turbines require higher support structures as higher wind speeds combined with longer blades are necessary to increase their generating capacity. The standard 80-90 m tower is thus not economically viable anymore. Transportation logistics of large steel towers has led to concrete towers becoming a viable option. There are currently no design codes dealing exclusively with the design of concrete wind turbine towers. The aim of this project is to investigate and highlight important aspects of the design process of a normally reinforced high strength concrete wind turbine tower. The tower was designed using nonlinear finite element modelling as a design tool to accurately design the tower for various loads and load cases. An analytical design method was developed that can be used in the preliminary design stage. Finally, the importance of the soil-structure interaction was investigated through a sensitivity analysis. It was found that the formation of cracks greatly affected the stiffness of the structure and that the reduction in stiffness increased the deflection significantly. It was also found that a structure that has sufficient strength to resist the ULS loads may not necessarily comply with the maximum deflection limit for the SLS. The concrete strength class required was not only determined by the maximum compression stress the concrete would experience, but also by the stiffness required to ensure that the tower frequency is within the turbine’s working frequency. The dynamic behaviour of the tower was also affected by the formation of cracks. The fundamental frequency of the tower was reduced by 46% after the SLS loads were applied. It was found that the soil preparation for the foundation plays a vital role in ensuring that the tower frequency is not reduced to a level where it falls outside the turbine working frequency.
AFRIKAANSE OPSOMMING: Die eksponensiële groei van die globale wind turbine mark het gelei tot ʼn beduidende toename in die opwekkingskapasiteit van wind turbine kragopwekkers. Moderne turbines benodig hoër ondersteuningstrukture om hulle opwekkingskapasiteit te verhoog en daarom is die standaard 80-90 m toring nie meer geskik nie. Die vervoer logistiek van groot staal torings het daartoe gelei dat beton torings ʼn lewensvatbare opsie geword het. Daar is huidiglik geen ontwerpkodes wat uitsluitlik handel met die ontwerp van beton wind turbine torings nie. Die doel van hierdie projek is om die ontwerp proses van ʼn bewapende hoë sterkte beton wind turbine toring te ondersoek en belangrike aspekte uit te lig. Die toring word ontwerp deur ʼn nie-liniêre eindige element model te gebruik as ʼn ontwerp hulpmiddel, om die toring akkuraat te ontwerp vir verskeie laste en lasgevalle. ʼn Analitiese ontwerpmetode is ontwikkel wat gebruik kan word in die voorlopige ontwerpfase. Laastens is die grond-struktuur interaksie ondersoek deur ʼn sensitiwiteitsanalise. Daar is gevind dat die vorming van krake die styfheid van die struktuur aansienlik beïnvloed en dat die vermindering in styfheid die defleksie beduidend vermeerder. Daar is ook gevind dat ʼn struktuur wat voldoende sterkte het om die uiterste lastoestande te weerstaan, nie noodwendig voldoen aan die maksimum defleksiegrens vir die diens lastoestande nie. Die beton sterkte klas wat benodig is, is nie net bepaal deur die maksimum druk spanning wat die beton sal ondervind nie, maar ook deur die styfheid wat vereis word om te verseker dat die toring se frekwensie binne die turbine se werksfrekwensie val. Die dinamiese gedrag van die toring is ook beïnvloed deur die vorming van krake. Die fundamentele frekwensie van die toring is verlaag met 46% nadat die diens lastoestande toegepas is. Daar is gevind dat die grond voorbereiding vir die fondasie ʼn belangrike rol speel om te verseker dat die toring se frekwensie nie verlaag word tot ʼn vlak waar dit buite die turbine se werksfrekwensie val nie.
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2

Zralý, Tomáš. "Železobetonová konstrukce chladící věže". Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2015. http://www.nusl.cz/ntk/nusl-227268.

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Abstract (sommario):
There was solved reinforced concrete cooling tower in the diploma thesis. This is a rotationally symmetrical construction. The cooling tower is concrete shell on columns. The cooling tower was solved using the finite element method, computer program Midas FEA. The work includes: calculation using the program Midas FEA, comparison of load between eurocode and foreign literature, the design of shell and columns, drawings form
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3

Gama, Paulo Vitor Calmon Nogueira da. "Contribuições ao dimensionamento de torres eólicas de concreto". Universidade de São Paulo, 2015. http://www.teses.usp.br/teses/disponiveis/3/3144/tde-19072016-085023/.

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Abstract (sommario):
O trabalho dedica-se ao estudo das torres eólicas protendidas de concreto, com a finalidade de promover a discussão sobre os critérios de dimensionamento, tema de grande relevância na atualidade. Para tal, foi considerada uma torre eólica de 100 m de altura provida de turbina de 5 MW, cujas ações foram obtidas da literatura. O carregamento de vento ao longo da torre foi tratado como estático equivalente de acordo com disposições normativas, através de uma forma simplificada para a adoção de uma velocidade de projeto equivalente à incidente no rotor. Com base na literatura, apenas as condições mais críticas foram adotadas no dimensionamento. As combinações entre os carregamentos e os coeficientes parciais de segurança foram delineados a partir do método dos estados limites, o qual se encontra amplamente difundido em normas de projeto. Os esforços e deslocamentos na torre foram obtidos pelo método dos elementos finitos com discretização em elementos finitos unidimensionais, considerando as não linearidades física e geométrica por intermédio do acoplamento de um programa comercial de elementos finitos com algoritmo desenvolvido em linguagem MATLAB, que tanto define as diversas geometrias de cada elemento ao longo da torre (seção variável), como obtém para cada um: a armadura ativa longitudinal a partir de perdas de protensão recalculadas, o diagrama momento-curvatura-força normal, e a armadura passiva longitudinal escalonada, que é otimizada durante o processo do dimensionamento. Quanto à resistência ao esforço cortante das seções anulares, foi proposto um modelo que apresentou boa concordância com os resultados experimentais obtidos na literatura. Além dos concretos convencionais, é discutido o estado-da-arte do concreto de ultra-alto desempenho reforçado com fibras, CUADRF, tratando sobre seu desenvolvimento histórico, composição, diferentes tipos, propriedades mecânicas, aplicações, recomendações para projeto e as simplificações adotadas quanto ao seu uso nas torres eólicas. Ao final foram realizadas análises paramétricas relativas à geometria e à classe de concreto para dois tipos de torres: em tronco de cone e de variação parabólica. Uma das principais conclusões do trabalho é que a otimização da área de aço passivo ocorre de forma sistemática para as torres de frequência natural mais baixa, tornando indispensável o uso de um modelo não linear para o correto dimensionamento. Além disso, as torres obtidas foram comparadas através do custo material total, constatando-se que as torres mais econômicas possuíam variação parabólica. Isso permitiu aferir um valor inicial para o qual o uso do CUADRF em torres eólicas passaria a ser competitivo.
The work is dedicated to the study of prestressed wind towers of concrete, in order to promote discussion on the design criteria, highly relevant topic today. For this purpose, it was considered a wind tower 100 m high provided with 5 MW turbine, whose actions were obtained from the literature. The wind loading along the tower was treated as static equivalent in accordance with design codes, through a simplified way for the adoption of a design speed equivalent to that incident on the rotor. Based on the literature, only the most critical conditions were adopted in the design. The combinations between loads and partial safety factors were outlined by the limit states method, which is widespread in design standards. The forces and displacements in the tower were obtained by the finite element method with discretization in frame elements, through material and geometric nonlinearities. This was done through coupling of a commercial finite element program with algorithm developed in MATLAB language, which defines both the various geometries of each element along the tower (variable section), and obtains for each: prestressing reinforcement from recalculated prestressing losses, the moment-curvature-normal diagram, and the stepped longitudinal passive reinforcement that is optimized during the design process. For the shear strength of the annular sections, a model that showed good agreement with the experimental results obtained in the literature was proposed. In addition to conventional concrete, the state-of-the art of ultra-high performance fiber reinforced concrete, UHPFRC, is discussed, dealing on its historical development, composition, different types, mechanical properties, applications, recommendations for design and simplifications adopted on its use in wind towers. At the end were performed parametric analyzes of the geometry and the concrete class for two types of towers: frustoconical and with parabolic variation. One of the main conclusions is that the optimization of passive steel area occurs systematically to the lower natural frequency towers, making it essential to use a nonlinear model for proper design. Moreover, the towers obtained were compared with the total material cost, having noticed that most economical towers had parabolic variation for the constraints here imposed. This allowed the assessment of an initial value for which the use of UHPFRC in wind turbine towers would be competitive.
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4

Pires, Pedro Miguel Rodrigues. "Design of concrete-steel transitions in a hybrid wind turbine tower". Master's thesis, 2013. http://hdl.handle.net/10316/38501.

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Abstract (sommario):
Dissertação de Mestrado Integrado em Engenharia Civil apresentada à Faculdade de Ciências e Tecnologia da Universidade de Coimbra
O crescimento exponencial da população mundial tem acentuado a necessidade de recursos disponíveis e o consumo energético. Como forma de responder a essa crescente procura e com o objectivo de preservar os recursos naturais existentes, a energia eólica apresenta-se como uma solução eficaz. A energia eólica é a fonte de energia com a maior taxa de crescimento, situando-se em cerca de 20% ao ano. O aumento da potência dos aerogeradores exige torres de maiores dimensões levando ao repensar de soluções e a procura de alternativas. Os elementos pré-fabricados de betão surgem como uma alternativa relativamente às torres metálicas. Soluções hibridas permitem aproveitar as vantagens de ambos os materiais conduzindo a soluções promissoras para grandes alturas. O peso dos segmentos de betão é cada vez mais um problema em torres de grandes dimensões. Estes elementos são construídos em apenas uma peça o que leva a soluções pesadas, de grandes dimensões e difícil transporte. O objectivo principal deste trabalho consiste no dimensionamento e comparação de diferentes soluções para os segmentos de transição numa torre híbrida de 122 metros com um sistema de pré-esforço pelo exterior. Foram estudadas e comparadas duas variações da transição tendo em conta aspectos como peso, dimensões, necessidades construtivas, armaduras e resistência a acções de fadiga. A primeira alternativa estudada consiste num segmento mais curto e a segunda num elemento mais esbelto sempre com o objectivo de reduzir o peso do elemento de transição. Inicialmente foi necessário definir completamente a geometria da flange, a posição e traçado dos cabos de pré-esforço. Foi realizado um cálculo detalhado das necessidades de pré-esforço e respectivas perdas. As quantidades de armaduras foram dimensionadas tendo em conta situações criticas tais como os efeitos de esforço transverso e torsão, controlo da fendilhação em betões jovens e os efeitos de forças radiais devido aos pontos de desvio do pré-esforço, foram também tidos em conta os efeitos das acções de fadiga
In recent years, the Earth has witnessed an exponential population growth demanding for more resources and energy. As a response to this need wind energy presents itself as an intelligent choice, a never ending source of energy with limited environmental impact, with its goal to preserve the earth’s depleting resources. Wind energy is the world´s fastest growing energy source increasing at an annual rate of 20%. The increasing generators capacity demands for higher towers with new solutions, new materials and new construction processes. Pre-fabricated concrete sections appeared as a good alternative to steel and hybrid solutions aim to take advantage of both materials leading to cheaper and better performing wind turbine towers. One current problem with high concrete towers is the weight of the segments. The top concrete segments have to be built as a single section, creating quite massive elements. The main objective of this work is to design and compare different solutions for concrete-steel transitions in a 122 m externally prestressed hybrid tower. Two different geometries for the top concrete segment were studied and compared with aspects such as weight of the segments, dimensions, production requirements, reinforcement amounts or fatigue damage taken into account. The first concrete segment variation is shorter than the typical ENERCON segments and the second is a thinner one, aiming at reducing the weight of the transition element. The design first steps consisted of the definition of the flange connection configuration and definition of the prestress tendons position. An extensive calculation of the prestress was performed with repercussions in every other element. The reinforcement of the segments was determined taking special focus to the effects of shear and torsion, early-age thermal crack width and the radial forces from the deviation points. The effects of fatigue damage on the structure were also taken into account
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Liu, Chuan-I., e 劉權毅. "Optimal Design of Conductive Concrete to Improve the Anti-lightning Grounding of ElectricityTransmission Tower by using Artificial Neural Networks". Thesis, 2014. http://ndltd.ncl.edu.tw/handle/zs3ch6.

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碩士
淡江大學
土木工程學系碩士班
102
Due to high domestic lightning density, there are many reasons to cause electricity transmission system failure. According to Taipower (Taiwan Power Company, TPC, also known as Taipower) statistics, in the transmission system, the electrical accident came from lightning strikes were close to 50% of all accidents. In recent years, due to insufficient of grounding web, domestic equipment damage happened continuously. Lightning strikes are major natural disaster. Therefore, good grounding device should be an important measure in lightning protection. In the lightning protection and grounding device, the smaller the grounding resistivity is, the lower the instantaneous voltage drops. Therefore, the risk of being struck by lightning becomes less with smaller grounding resistance value and reliable anti-lightning grounding equipment. This study proposes the use of highly conductive concrete basic structure to be a large area of grounding resistance with grounding grid and grounding rods sharing lightning current in parallel,then to drive the lightning strike current underground and reduce the power loss caused by power failure. Previous works on the main drag reduction methods including increasing the area of the grounding network, citing external grounding and using chemical reducing agent were likely to cause corrosion of the grounding conductor. The earth is a poor conductive object due to the high resistivity of the earth. Once the electric current flows into the earth, the resistance of earth would be close to zero because of its large cross-section. Artificial Neural Networks method is different from the traditional one which is a kind of parallel distributed processing computing model. The basic principle of operation is based on a large but simple processing unit, or called Neuron connected to each other; by using the whole processing unit by the simple arithmetic of the external input signal to process information, which is similar to many features and benefits of human brains.This study proposes the use of the Artificial Neural Networks training with cross-validation method and Train-and-Test method used in optimizing the cost,resistance, and compressive of highly conductive concrete.
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Libri sul tema "Concrete tower design"

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American Society of Civil Engineers. Concrete Pole Task Committee., a cura di. Guide for the design and use of concrete poles. New York, N.Y: American Society of Civil Engineers, 1987.

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Structural Engineering Institute. Task Committee on Concrete Pole Structures, a cura di. Prestressed concrete transmission pole structures: Recommended practice for design and installation. Reston, Va: American Society of Civil Engineers, 2012.

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International Conference "Conquest of Vertical Space in the 21st Century" (3rd 1997 London, England). Multi-purpose high-rise towers and tall buildings: Proceedings of the third International Conference "Conquest of Vertical Space in the 21st Century" organised by the Concrete Society, London, 7-10 October 1997. London: E & FN Spon, 1997.

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Principles of Concrete Telecom Towers Design: مبانی طراحی برج های بتونی مخابراتی. Google books, 2021.

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Maymir, Euripides Fajardo Y. Design of Reinforced-Concrete Water Tower and Steel Tank. Creative Media Partners, LLC, 2021.

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Capitoli di libri sul tema "Concrete tower design"

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He, Wenjun, Chen Yang, Jianxiang Gong, Rutao Liu e Yucheng Zhou. "Optimized design of prestressed concrete tower turbine foundations". In Building Seismic Monitoring and Detection Technology, 482–93. London: CRC Press, 2023. http://dx.doi.org/10.1201/9781003409564-60.

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Pérez Caldentey, Alejandro, John Hewitt, John van Rooyen, Graziano Leoni, Gianluca Ranzi e Raymond Ian Gilbert. "Case studies considering the influence of the time-dependent behaviour of concrete on the serviceability limit state design of composite steel-concrete buildings". In Time-dependent behaviour and design of composite steel-concrete structures, 137–56. Zurich, Switzerland: International Association for Bridge and Structural Engineering (IABSE), 2021. http://dx.doi.org/10.2749/sed018.ch7.

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<p>This chapter presents a number of case studies that deal with the service design of composite steel-concrete buildings associated with the time-dependent behaviour of the concrete. The particular focus of this chapter is to outline key design aspects that need to be accounted for in design and that are influenced by concrete time effects. The first case study provides an overview of the design considerations related to the time-dependent column shortening in typical multi-storey buildings by considering the layout of the Intesa Sanpaolo Headquarters in Turin as reference. The second case study focuses on a composite floor of a commercial building constructed in Australia and it provides an overview of the conceptual design used to select the steel beam framing arrangement to support the composite floor system while accounting for concrete cracking and time effects. The third case study deals with the Quay Quarter Tower that has been designed for the repurposing of an existing 50-year old building in Australia while accounting for the time-dependent interaction between the existing and the new concrete components of the building.</p>
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Bob, Corneliu, Sorin Dan, Catalin Badea, Aurelian Gruin e Liana Iures. "Strengthening of the Frame Structure at the Timisoreana Brewery, Romania". In Case Studies of Rehabilitation, Repair, Retrofitting, and Strengthening of Structures, 57–80. Zurich, Switzerland: International Association for Bridge and Structural Engineering (IABSE), 2010. http://dx.doi.org/10.2749/sed012.057.

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<p>Many structures built in Romania before 1970 were designed for gravity loads with inadequate lateral load resistance because earlier codes specified lower levels of seismic loads. Some of these structures are still in service beyond their design life. Also, some deterioration was observed in existing structures due to the actions of different hazard factors. This paper presents the case study of a brewery with reinforced concrete framed structure of five storeys and a tower of nine storeys, which has been assessed and strengthened. The brewery and the tower were built in 1961 and an extension in 1971. An assessment performed in 1999 showed up local damages at slabs, main girders, secondary beams, and columns; concrete carbonation; concrete cover spalled over a large surface; complete corrosion of many stirrups and deep corrosion of main reinforcement; and some broken reinforcement. Such damage was caused by salt solution, CO2, relative humidity RH 80%, and temperatures over 40◦C. Also, inadequate longitudinal reinforcement was deduced≈ from the structural analysis. The initial design, done in 1960, was according to the Romanian codes of that time with provisions at low seismic actions. The structural system weakness is due to present-day high seismic actions. The rehabilitation of the reinforced concrete structure was performed by jacketing with reinforced concrete for the main and secondary beams and columns. In 2003, due to continuous operation and subsequent damage of the structure, a new assessment was required. It was found that some beams and one column were characterized by inadequate main and shear reinforcement as well as corrosion of many stirrups at beams. The strengthening solution adopted was based on carbon fibre reinforced polymer composites for beams and column.</p>
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Zhao, X., J. L. Cai e W. T. Yue. "Optimal Design for Stability Performance of Super Tall Residential Tower Equipped with Reinforced Concrete Outriggers". In Lecture Notes in Civil Engineering, 495–502. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-8079-6_48.

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Formisano, Antonio, e Antonio Davino. "Seismic Analysis and Retrofitting by C-FRP of Reinforced Concrete Bell Towers Within Masonry Churches: A Case Study". In Case Studies of Building Rehabilitation and Design, 29–56. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-71237-2_3.

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Horr, A., S. Asadsajadi e M. Safi. "Design of concrete cooling tower structures with imperfection using ANN-based simulator". In Natural Draught Cooling Towers, 163–73. CRC Press, 2004. http://dx.doi.org/10.1201/b17001-24.

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Ribeiro, Catão, Heitor Nogueira e Cláudio Watanabe. "Design of two curve cable stayed bridges with overlapping decks supported by a single “X” shape tower". In Tailor Made Concrete Structures, 238–39. CRC Press, 2008. http://dx.doi.org/10.1201/9781439828410.ch193.

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Harte, R., M. Andres, E. Mahran e R. Wörmann. "High performance concrete and its consequences on design, stability and durability of cooling tower shells". In Natural Draught Cooling Towers, 237–47. CRC Press, 2004. http://dx.doi.org/10.1201/b17001-35.

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"Design in reinforced concrete for environmentally sustainable tall office towers". In Multi-purpose High-rise Towers and Tall Buildings, 317–36. CRC Press, 2003. http://dx.doi.org/10.1201/9781482272048-36.

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"Structural analysis and design of the world's tallest reinforced concrete building". In Multi-purpose High-rise Towers and Tall Buildings, 345–58. CRC Press, 2003. http://dx.doi.org/10.1201/9781482272048-38.

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Atti di convegni sul tema "Concrete tower design"

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"IBM Tower in Singapore--Analysis and Design". In SP-128: Evaluation and Rehabilitation of Concrete Structures and Innovations in Design. American Concrete Institute, 1991. http://dx.doi.org/10.14359/3293.

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Rengui, Wang, Wei Leyong, Yan Zhifa, Fan Jiansheng, Zhang Chong, Li Hongtao, Ruan Jing, Lin Haifeng, Dai Junping e Zhao Feng. "Design and Experimental Study of Steel Box-Concrete Filled Steel Tube Composite Cable Tower". In IABSE Congress, Nanjing 2022: Bridges and Structures: Connection, Integration and Harmonisation. Zurich, Switzerland: International Association for Bridge and Structural Engineering (IABSE), 2022. http://dx.doi.org/10.2749/nanjing.2022.0311.

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<p>Steel box-concrete filled steel tube (BCFST) composite tower is a new type of tower structure proposed to be used in super-span suspension bridges. BCFST comprises of four concrete-filled steel tube (CFST) columns inside and a steel box outside. CFSTs and the steel box are connected with each other by steel webs and diaphragm plates. In this study, the combined compressive and bending loading experiments of the BCFST were conducted, and the ability of the composite tower section to deform together was studied. The experiment showed that the bottom section of the composite tower deviated from the plane section after deformation, and the other sections approximately maintained the plane section after deformation. The calculation method of the compression-bending capacity of the composite cable tower was proposed, which can provide a reference for the application of the composite tower in practical engineering.</p>
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Young, Andrew C., Steve Hettick, Habib J. Dagher, Anthony M. Viselli e Andrew J. Goupee. "VolturnUS 1:8-Scale FRP Floating Wind Turbine Tower: Analysis, Design, Testing and Performance". In ASME 2014 33rd International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/omae2014-23454.

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In May of 2013 the VolturnUS 1:8 floating semi-submersible wind turbine was successfully deployed off the coast of Castine, Maine, making the unit the first grid connected offshore turbine in the United States. The VolturnUS 1:8 structure features a 20 kW turbine, a post-tensioned and reinforced concrete semi-submersible base and a fiber reinforced plastic (FRP) tower (E-glass and polyester resin). The VolturnUS 1:8 structure is a geometrically 1:8-scale of a 6 MW floating turbine design and is used to demonstrate the feasibility of both the concrete base and FRP tower and validate the performance of the structure in a scaled environment. Data collected from the deployed 1:8-scale structure will be used for modeling and simulating the behavior of the system at full-scale. The effort was led by the University of Maine’s Advanced Structures and Composites Center (UMaine) and a consortium of industry partners, including FRP manufacturer Ershigs, Inc. An overview of the process and methodology used in the analysis, design and testing of the 1:8 scale FRP floating wind turbine tower is presented. The use of an FRP tower on a floating wind turbine platform offers the benefits of reduced tower mass and maintenance requirements and has the potential to further reduce hull mass by lowering the global center of gravity of the structure. An FRP tower for use on the UMaine semi-submersible concrete VolturnUS 1:8 platform was developed that meets all strength and serviceability criteria and is robust enough to withstand the loading from both wind and waves. An overview of the tower loads analysis and FAST modeling, tower structural design, structural proof testing and preliminary analysis of performance are presented. The VolturnUS 1:8 wind turbine tower is the first time FRP materials have been used in an offshore wind tower application. Further, the methodologies and procedures that were developed in the design of the pilot-scale tower are directly applicable to the design and analysis of composite wind turbine towers at the full-scale level. These “lessons learned” are already in use as Ershigs and UMaine work to design a full-scale composite tower over 80 meters tall for use on the VolturnUS platform with a 6MW wind turbine. The results of the 1:8-scale program demonstrate the successful use of an FRP wind turbine tower on a floating platform and highlights the potential for the use of an FRP tower at the full-scale (6 MW) level.
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Morrison, Paul, Lars Halvor Kaasa, James Go e Hobi Kim. "1915 Çanakkale Bridge, Tower foundations: Independent Design Verification". In IABSE Symposium, Istanbul 2023: Long Span Bridges. Zurich, Switzerland: International Association for Bridge and Structural Engineering (IABSE), 2023. http://dx.doi.org/10.2749/istanbul.2023.0300.

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<p>An Independent Design Verification (IDV) has been carried out on the 1915 Çanakkale Bridge for the DBFO contractor client DLSY JV. The bridge spans the Dardanelles in Türkiye and has a world leading main span of 2023m. This paper presents the IDV for the foundations of the two main towers for the bridge. The Designer adopted an increasingly used solution wherein reinforced concrete caissons are supported on gravel mats which sit on the soil deposits which are reinforced with open ended driven steel tubes (“inclusion piles”) which are toed into stiff deep strata, this approach has been used on the Rion-Antirion bridge in Greece and the Izmit Crossing in Tukey. The IDV included: independent review of the ground investigation information; preparation of Ground Investigation Reports which included the seismic setting of the site and design spectra; and development of finite element models for the two tower foundations including (a) single pile models allowing investigation of the load path between caisson and Miocene bedrock through gravel mat, piles and more recent geological strata; and (b) full 3D FE models of the initial section of the steel towers, the reinforced concrete caisson and its geotechnical foundation for SLS, ULS, ALS (ship impact) and seismic design situations. The verification process included fruitful discussion with the Client and Designer to develop design solutions for the foundations. The bridge has been successfully opened to traffic.</p>
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Xu, Gongyi, Yanfei Zhang, Huiyue Hu e Yang Liu. "Innovative Design for Qingshan Yangtze River Bridge". In IABSE Congress, Nanjing 2022: Bridges and Structures: Connection, Integration and Harmonisation. Zurich, Switzerland: International Association for Bridge and Structural Engineering (IABSE), 2022. http://dx.doi.org/10.2749/nanjing.2022.2061.

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<p>Qingshan Yangtze River Bridge is a cable-stayed bridge with a main span of 938 m, which is the fifth largest cable-stayed bridge in the world. In order to cope with challenges such as long span, wide bridge deck and heavy load, the girder of the main span adopts integral steel box girders, while the side span adopts steel box-concrete composite girders. The interface of the two types of structure is located on the middle span, 18 m to the bridge tower. The main girder is 4.5 m in height and 48 m in width. The main tower is an A-shaped concrete tower with a height of 279.5 m. The stay cables are arranged in a fan shape. The main girder section near the tower is supported by No.0 cable instead of a lower beam to achieve an optimum architectural effect. The foundation of the main tower adopts a rotary bored concrete pile. The bridge adopts a fully floating structure system. A restraint system of viscous damper + limit block is adopted in the longitudinal direction, while a system of separated c-section steel dampers with shear clip tenon + vibration reduction and wind resistant supports are adopted as horizontal restraints.</p>
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"Bearing Capacity of R/C Sixty Year Old Water Tower". In SP-128: Evaluation and Rehabilitation of Concrete Structures and Innovations in Design. American Concrete Institute, 1991. http://dx.doi.org/10.14359/2929.

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""SP-339-03: First Performance-Based Seismic Design Tower in Oakland, California"". In "SP-339: Performance-Based Seismic Design of Concrete Buildings: State of the Practice (ACI Concrete Convention, October 15-19, 2017, Anaheim, California, USA)". American Concrete Institute, 2020. http://dx.doi.org/10.14359/51724691.

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"SP-339-04: Efficient Design of Slender Core-Only Tower Using PBSD". In "SP-339: Performance-Based Seismic Design of Concrete Buildings: State of the Practice (ACI Concrete Convention, October 15-19, 2017, Anaheim, California, USA)". American Concrete Institute, 2020. http://dx.doi.org/10.14359/51724692.

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Bing, Tang, e Yu Bo. "Design and Structure research of Concrete-filled steel tube wind turbine tower". In International Conference on Mechanics,Materials and Structural Engineering (ICMMSE 2016). Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/icmmse-16.2016.33.

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Gurusamy Naidu, Kribanandan. "Mega High Rise Buildings – Strength and E-modulus limits for High Performance Concrete in Malaysia." In IABSE Conference, Kuala Lumpur 2018: Engineering the Developing World. Zurich, Switzerland: International Association for Bridge and Structural Engineering (IABSE), 2018. http://dx.doi.org/10.2749/kualalumpur.2018.0765.

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<p>In the early 1990s the Petronas Twin Towers Project in Kuala Lumpur, set the stage for the use of high performance concretes of &gt;C80/95 for high rise construction worldwide. In the intervening years the rapid increase in the cost of land in cities due to urbanization accelerated the appetite for mega high rise buildings, inevitably &gt; 50 stories, having to be built on ever more constrained spaces. In this context high performance concrete of Grades well in access of C80/95 is now becoming commonly specified in design.</p><p>This paper explores the development of HPC in Malaysia from the time of the Petronas Twin Tower project in the mid 90’s and the constraints and limitations which exist in the use of higher grades of concrete for design. It also provides designers a theoretical basis for the selection of e- modulus to undertake innovative design based on available local resources.</p>
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Rapporti di organizzazioni sul tema "Concrete tower design"

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LaNier, M. W. LWST Phase I Project Conceptual Design Study: Evaluation of Design and Construction Approaches for Economical Hybrid Steel/Concrete Wind Turbine Towers; June 28, 2002 -- July 31, 2004. Office of Scientific and Technical Information (OSTI), gennaio 2005. http://dx.doi.org/10.2172/15011444.

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BUCKLING BEHAVIOUR OF THE STEEL PLATE IN STEEL – CONCRETE – STEEL SANDWICH COMPOSITE TOWER FOR WIND TURBINE. The Hong Kong Institute of Steel Construction, settembre 2022. http://dx.doi.org/10.18057/ijasc.2022.18.3.7.

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To solve the problem of collapses caused by local buckling of steel plates under compression in traditional steel towers, a novel steel-concrete-steel (SCS) sandwich composite tower for a wind turbine is proposed in this paper. To study the buckling behaviour of steel plates in SCS sandwich composite towers, six specimens were designed and tested under axial compression. The specimens were designed considering the key parameters of curvature radius, thickness of the steel plate, and the spacing-to-thickness ratio (the ratio of stud spacing to the thickness of steel plate). The failure modes, normalised average stress-strain curves and load-strain curves of the specimens were assessed, and the effects of the curvature radius and the spacing-to-thickness ratio of the steel plate were analysed. The experimental results showed that the buckling strength of the steel plate increased with a decrease in the ratio of the curvature radius to the thickness of the steel plate. The finite element (FE) model of the elastic buckling stress of the steel plate of the SCS sandwich composite tower was employed and validated against the test results. In parametric study, the effects of governing parameters including the curvature radius of the steel plate, thickness of the steel plate and spacing of the studs, on the effective length factors of the inner and outer steel plates were analysed. Subsequently, the design rules of the effective length factor of the inner and outer steel plates, and the design methods of spacing of studs to prevent local instability of the inner and outer steel plates before yielding were proposed.
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Low Wind Speed Technology Phase I: Evaluation of Design and Construction Approaches for Economical Hybrid Steel/Concrete Wind Turbine Towers; BERGER/ABAM Engineers Inc. Office of Scientific and Technical Information (OSTI), marzo 2006. http://dx.doi.org/10.2172/878490.

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