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2023-08-29

Residential Buildings in Trieste, Italy

The stand-alone program RWIND allowed Davide Prando (architect) and Marco Rota Nodari (engineer) to optimize the project, highlighting some critical locations on the buildings' surfaces, due to the high positive and negative pressure values encountered.

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Residential Building

Description

The particular conditions of the site, known for its high wind speed - that is, the presence of wind originating from the northeast known as the "Bora di Trieste" - necessitated an in-depth analysis by simulating the building in a digital wind tunnel.

The collaboration between Davide Prando (architect) and Marco Rota Nodari (engineer) using the stand-alone program RWIND has led to the optimization of the project, highlighting some critical locations on the buildings' surfaces due to the high positive and negative pressure values encountered.

Location

Via Giovanni Paisiello, 3/5

34148 Trieste, Italy

Investor	Zanette Srl Via Brigata Osoppo, 190 Vigonovo di Fontanafredda, Italy www.zanette.com
Structural Design	VM Architettura Integrata Srl Via Europa, 50 Busnago, Italy www.studiorotanodari.com
Assembly	I.T.A. di Lorenzon Srl Strada Cellini, 8/B Sacile, Italy www.itaallestimenti.it

Project Specifications

RWIND Model of Residential Buildings in Trieste, Italy | © VM Architettura Integrata Srl

Residential Buildings in Trieste, Italy | © VM Architettura Integrata Srl

RWIND Model of Residential Building in Trieste, Italia | © VM Architettura Integrata Srl

Residential Buildings in Trieste, Italy | © VM Architettura Integrata Srl

Do you have any questions?

Events

2024-05-08

Online Training

RFEM 6 | Students | Introduction to Reinforced Concrete Design

2024-11-13

Online Training

RFEM 6 | Students | Introduction to Reinforced Concrete Design

Videos

Product Feature

Punching Shear Design for All Section Shapes

Length: 00:00:45 min

General

Dynamic and Seismic Analysis of Structures | RFEM 6 & RSTAB 9 by Dlubal Software

Length: 00:00:00 min

Stiffening Design in RFEM 6 Using Building Model

Event

Webinar | Stiffening Design in RFEM 6 Using Building Model

Length: 00:00:00 min

FAQ

FAQ 005472 | In the table of the objects to be designed in the Concrete Design add-on, punching nodes are...

Length: 00:00:00 min

Event

Calculation of Reinforced Concrete Slabs in RFEM 6

Length: 01:09:36 min

FAQ

FAQ 005432 | How can I set user-defined points for result values on surfaces in RFEM 6?

Length: 00:00:51 min

Event

RFEM 6 for Students | Introduction to Reinforced Concrete Design | November 23, 2023

Length: 01:00:25 min

Product Feature

Cross‑Section Optimization

Length: 00:00:56 min

Event

Webinar | Analysis of Induced Vibrations in Time History Analysis Add-On in RFEM 6

Length: 00:38:40 min

Playlist

Models to Download

Model 004661 | Building Envelope with Flat Roof

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14x

Building Envelope with Flat Roof

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23x

Cube – Validation Example

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Pedestrian and Cyclist Bridge in Eichstätt, Germany

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Concrete Bridge

269x

25x

Concrete Building

382x

75x

Angled Office Building

368x

28x

Twin Pile Cap

318x

24x

Triple Pile Cap

388x

28x

Foundation Footing

Knowledge Base Articles

The fatigue design according to EN 1992-1-1 must be performed for the structural components subjected to large stress ranges and/or many load changes. In this case, the design checks for the concrete and the reinforcement are performed separately. There are two alternative design methods available.

KB 001875 | AISC 341-22 Moment Frame Member Design in RFEM 6

The three types of moment frames (Ordinary, Intermediate, Special) are available in the Steel Design add-on of RFEM 6. The seismic design result according to AISC 341-22 is categorized into two sections: member requirements and connection requirements.

To evaluate whether it is also necessary to consider the second-order analysis in a dynamic calculation, the sensitivity coefficient of interstory drift θ is provided in EN 1998‑1, Sections 2.2.2 and 4.4.2.2. It can be calculated and analyzed using RFEM 6 and RSTAB 9.
The coefficient θ is calculated as follows:$$\mathrm\theta\;=\;\frac{\displaystyle{\mathrm P}_\mathrm{tot}\;\cdot\;{\mathrm d}_\mathrm r}{{\mathrm V}_\mathrm{tot}\;\cdot\;\mathrm h}\;$$

The Steel Design add-on in RFEM 6 now offers the ability to perform seismic design according to AISC 341-16 and AISC 341-22. Five types of seismic force-resisting systems (SFRS) are currently available.

Screenshots

RWIND Model of Residential Buildings in Trieste, Italy | © VM Architettura Integrata Srl

Residential Buildings in Trieste, Italy | © VM Architettura Integrata Srl

RWIND Model of Residential Building in Trieste, Italia | © VM Architettura Integrata Srl

Residential Buildings in Trieste, Italy | © VM Architettura Integrata Srl

Model 004661 | Building Envelope with Flat Roof

Model Layout - AIJ Case Study: Single Building

Deformations of Production Unit Structure | © GH HERVOUET

Product Features

Feature 002801 | Punching Shear Design for All Section Shapes

Do you have individual column sections and angled wall geometries, and need punching shear design for them?

No problem. In RFEM 6, you can perform punching shear design not only for rectangular and circular sections, but for any cross-section shape.

Feature 002632 | Floor Analysis as Detached 2D Structures

The building model is calculated in two phases:

Global 3D calculation of the global model, where the slabs are modeled as a rigid plane (diaphragm) or as a bending plate
Local 2D calculation of the individual floors

After the calculation, the results of the columns and walls from the 3D calculation and the results of the slabs from the 2D calculation are combined in a single model. This means that there is no need to switch between the 3D model and the individual 2D models of the slabs. The user only works with one model, saves valuable time, and avoids possible errors in the manual data exchange between the 3D model and the individual 2D ceiling models.

The vertical surfaces in the model can be divided into shear walls and opening lintels. The program automatically generates internal result members from these wall objects, so they can be designed as members according to any standard in the Concrete Design add-on.

Feature 002691 | Simplified Fire Resistance Design for Columns and Beams According to EN 1992-1-2, Sections 5.3.2 and 5.6

The Concrete Design add-on provides you with the option to perform the simplified fire resistance design according to EN 1992‑1‑2 for columns (Section 5.3.2) and beams (Section 5.6).

The following design checks are available for the simplified fire resistance design:

Columns: Minimum cross-sectional dimensions for rectangular and circular sections according to Table 5.2a as well as Equation 5.7 for calculating time of fire exposure
Beams: Minimum dimensions and center distances according to Table 5.5 and Table 5.6

You can determine the internal forces for the fire resistance design according to two methods.

1 Here, the internal forces of the accidental design situation are included directly into the design.
2 The internal forces of the design at normal temperature are reduced by the factor Eta,fi (ηfi), then used in the fire resistance design.

Furthermore, it is possible to modify the axis distance according to Eq. 5.5.

Feature 002670 | Fatigue Design According to EN 1992-1-1, Chapter 6.8

With the Concrete Design add-on, you can perform the fatigue design of members and surfaces according to EN 1992‑1‑1, Chapter 6.8.

For the fatigue design, you can optionally select two methods or design levels in the design configurations:

Design Level 1: Simplified design according to 6.8.6 and 6.8.7(2): The simplified design is performed for frequent action combinations according to EN 1992‑1‑1, Chapter 6.8.6 (2), and EN 1990, Eq. (6.15b) with the traffic loads relevant in the serviceability state. A maximum stress range according to 6.8.6 is designed for the reinforcing steel. The concrete compressive stress is determined by means of the upper and lower allowable stress according to 6.8.7(2).
Design Level 2: Design of damage equivalent stress acc. to 6.8.5 and 6.8.7(1) (simplified fatigue design): The design using damage equivalent stress ranges is performed for the fatigue combination according to EN 1992‑1‑1, Chapter 6.8.3, Eq. (6.69) with the specifically defined cyclic action Q_fat.

Frequently Asked Questions (FAQ)

What is the difference between the RANS, URANS, and DDES turbulence models?

Which products do you recommend for the structural analysis and design of reinforced concrete structures?

In the table of the objects to be designed in the Concrete Design add-on, punching nodes are listed in the not valid/deactivated column, although I have defined them as punching nodes. How can I fix this?

How can I generate an area load on members via cells in RFEM 6 or RSTAB 9?

How can I use graphic templates for multi printing of a reinforcement?

How can I activate the design with steel fiber-reinforced concrete in the "Concrete Design" add-on for RFEM 6?

Customer Projects

Residential Buildings in Trieste, Italy

Exterior View of Pastry Production and Storage Unit | © GH HERVOUET

Creation of a production and storage facility for pastries in Montbert, France

Pedestrian and Cyclist Bridge "Herzogsteg" in Eichstätt, Germany

Front View of Office Building with V-Shaped Steel Composite Columns | © Die Tragwerker GmbH

Office Building with Integrated Visitor Center and Parking Garage in Geiselbulach, Germany

Office Building of Stadtwerke Kirchheim unter Teck, Germany

Reinforced Concrete Elevator Shaft at Montluçon Station, France

New Concert Hall in La Roche-sur-Yon, France

Pristina City Center, Republic of Kosovo

Deformations of Airedale Swing Bridge in RFEM

Airedale Swing Bridge in Rodley, United Kingdom

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