Tower Design Software
Tower Design Software >>> https://ssurll.com/2t7tnS
Define cluster formation of linear ancillaries as well as miscellaneous ancillaries including resistance ancillaries. Use options like ATTACH command in the OpenTower Europe version to define load distribution criteria from an equipment to the tower.
Define member connections with various bolt patterns including pre-defined bolt configurations. Automatically consider the effects of connections on member design calculations and check connection efficiencies.
When designing in accordance with U.S., Euro, or Australian design standards, you will save time and complete projects faster through automatic scenario creation by combining geometric layers, equipment grouping, and loading criteria. You can also create a physical model by applying hierarchical modification layers with revision history on top of the base geometry using built-in business logic.
Use a modern graphical environment to get a realistic visualization of the model. Discrete and linear appurtenances are drawn to scale on your 3D tower model. Visualize precise positioning of the equipment, including feed lines at any elevation and linear attachments.
Define member connections with various bolt patterns, including pre-defined bolt configurations. Automatically consider the effects of connections on member design calculations and check connection efficiencies.
Define cluster formation of linear ancillaries as well as miscellaneous ancillaries including resistance ancillaries. Use options like ATTACH command to define load distribution criteria from an equipment to the tower.
Design tower foundations (U.S., Euro, and Australian code) for tower legs and guy support points, including pad-pier, drilled pier, guy anchor foundations and mat foundations. Automatically design foundations for the most critical load cases for different criteria and review the foundation rating.
If you are looking to improve efficiency on your next tower project, you are in the right place. With OpenTower Designer, you can efficiently design and model towers, such as lattice towers and guyed masts, as well as equipment like antennas, mounts, and linear appurtenances.
A perpetual license of Bentley software is a one-time purchase, with a yearly maintenance subscription, called SELECT. This includes 24/7/365 technical support, learning resources, and the ability to exchange licenses for other software once a year. With SELECT, you will benefit from:
For larger organizations with in-depth requirements, we offer plans to provide global pricing and access to our comprehensive portfolio of solutions and success plan services. Contact us about how to get access to software, global best practices, implementation services, training, and technical support to help your organization realize its full potential while addressing your unique needs.
If your project involves towers or masts, RFEM and RSTAB are your helpful companions for your planning. A wide range of add-on modules provides you with the individual customization options, such as an automatic generation of structures and loads, a determination of effective lengths, and design according to Eurocode.
Use the Dlubal spatial frame & truss analysis software RSTAB 9 if you need a special solution tailored to beam, frame, and truss structures. Due to the special attention to such structures, it is even easier to use than the FEA software RFEM. This program has been the best choice for structural analysis and design of pure structural member models for many years.
The structural analysis software provided by Dlubal Software can be integrated seamlessly into the Building Information Modeling (BIM) process. The large number of interfaces allows you to exchange the data of digital building models with RFEM or RSTAB.
The construction of a 328-foot-high tower at an altitude of about 6,890 ft above sea level is a particularly challenging task. A project of this type was realized in September 2020 in the area of the "Windsfeld" summit in Flachau / Flachauwinkl, Austria. The met mast is one of the tallest structures in Austria.
In the Chinese province of Qinghai, near the city of Haixi, a complex of 23 multi-energy plants is being built, combining different technologies to generate energy from renewable resources. The complex comprises a 618.4-foot-high tower of the 50 MW solar power plant; the support structure is expected to be completed in mid-2019.
A wooden lookout tower called Ester, designed by renowned Czech architect Martin Rajniš, was inaugurated in Jerusalem in mid-November 2017. This tower, designed in the shape of a cactus by renowned Czech architect Martin Rajniš, is located in the complex of a former hospital from 1887, not far from the old town walls ...
What makes tnxTower software unique? The key differentiators are the streamlined interface and the fact that the software was originally created to specifically serve the tower industry. Its modular design makes data entry a breeze and the program can handle even the most demanding tower design projects quickly. Plus, tnxTower generates analysis and design reports that have become a standard within the industry due to their completeness and clarity.
Before this book, software engineers tried to express their ideas using the basic concepts of Object-Oriented Programming (OOP): inheritance, composition, encapsulation, dynamic binding and abstract methods. There were very few names to capture a portion of the design, i.e. the relationships among several classes in a system. One of the few examples was Model-View-Controller (MVC).
We know that it is a characteristic of each profession to have its specific vocabulary, which allows work to be done more effectively. In this sense, I believe that the Design Patterns book was a big step for the maturity of software engineering as a profession.
We are confident that our extensive database, software tools, technology, and services will help solve some of the industry challenges, mainly in the structural analysis and modifications field, the accumulation/retention of the generated structural models with the current loading, and the immediate availability of the data to the customer's entire enterprise for further analysis and management support.
We are confident that our extensive database, software tools, technology, and services will help solve some of the industry challenges, mainly in the structural analysis and modifications field, the accumulation/retention of the generated structural models with the current loading, and the immediate avilability of the data to the customer's entire enterprise for further analysis and management support.
Model communication towersUse built-in business logic to create an analytical model by applying hierarchical modification layers on top of the base geometrical layer. In STAAD Tower, you can auto-create scenarios by combining geometric layers, equipment grouping, and loading criteria to enable layered analytical model optimization. In STAAD Tower Europe, you can use advanced options like user-defined-panel (UDP) to create nonstandard tower configurations.Perform advanced analysisPerform advanced analysis including sub-truss analysis or minimum bracing resistance check, static applicability check, asymmetric ice loading or escalated ice, segmental guy cables, auto patch loading, and guy rupture analysis. For dynamic and buckling analysis, a STAAD.Pro model can be exported from STAAD Tower.Design tower foundationsDesign tower foundations (U.S. code) for tower legs and guy support points, including pad-pier, drilled pier, guy anchor foundations and mat foundations. Automatically design foundations for the most critical load cases for different criteria and review the foundation rating.Create realistic graphics and precise modelsUse a modern graphical environment to get a realistic visualizations of the model. Discrete and linear appurtenances are drawn to scale on your 3D tower model. Visualize precise positioning of equipment including feedlines at any elevation and linear attachments.Configure bracing librariesCreate customizable XML libraries. Configure an XML file to create your own customized libraries for panel bracing, torque arms, and even truss legs. You may also use built-in bracing types that can be extended and configured externally.Use built-up section catalog for telecom towersUse built-in section profiles, including specialized section profiles like split pipe, bent plate, and more (30+ section types), as well as materials for virtually all global standards. Further extend the custom catalog by adding any number of sections and shapes.Customize equipment librariesCustomize the robust equipment library, which includes antenna, dish, TME, feedlines, and attachments equipment from all major manufacturers using built-in capabilities.Import models from other applicationsImport tower models from legacy software, such as TnxTower (U.S. version) and MS Tower.Design connectionsDefine member connections with various bolt patterns including pre-defined bolt configurations. Automatically consider the effects of connections on member design calculations and check connection efficiencies.Map tower dashboards and equipmentConnect to an asset management database to retrieve all information related to the site and equipment on any of your towers with additional customization. Reduce modeling and optimization time and perform engineering analysis in minutes.Define external loadingDefine cluster formation of linear ancillaries as well as miscellaneous ancillaries including resistance ancillaries. Use options like ATTACH command in the STAAD Tower Europe version to define load distribution criteria from an equipment to the tower. 2b1af7f3a8