Structural analysis of a buidling using Robot Structural Analysis

1.) HVAC Systems:
HVAC systems are responsible for the regulation of heat, airflow, ventilation, and air conditioning of an entire building. You
won’t see the machines when you enter the building but you will most certainly feel the effects of a comfortable and wellventilated workplace.
Here are some of the top reasons why business owners opt to have reliable HVAC systems in place for their office buildings
HVAC systems control the overall climate in the building. They also make the proper adjustments whenever we
experience changes in outdoor temperature.
During the winter season, the HVAC systems (mainly the boilers or heaters) work to keep the indoor temperature at a
comfortable level.
In hotter times of the season, the HVAC systems regulate air temperature by providing the necessary cooling to keep
the entire building comfortable.
Having a comfortable office climate increases the level of productivity and increases morale amongst the workers and
employees.
If you let your people work in settings conducive for work, they will surely be motivated to perform better because the
feel good in their work environment.
No employee will enjoy working in an office where it is freezing, or in an office where you frequently have to ignore
your perspiration just to focus on your computer screen.
Having a proper HVAC system installed is guaranteed to make your employees happy, hence, giving you better work
results in return.
HVAC systems not only regulate the temperature inside the building, they also improve the quality of air.
The quality of air pertains to humidity, and a typical HVAC system will reduce the amount of humidity in the air so you
workers and employees can continue enjoying a cozy and pleasant atmosphere at work.
Proper HVAC systems are a worthy investment for any business or building owner because it gives you energy savings
HVAC systems today are automated, which means you no longer have to manually adjust the temperature settings or
the time settings of each machine.

2) 
AIM:- To design a HVAC system for each floor based on the building designed.
INTRODUCTION:-
HVAC is an important part of residential structures such as single family homes, apartment buildings, hotels and senior livin
facilities, medium to large industrial and office buildings such as skyscrapers and hospitals, vehicles such as cars, trains,
airplanes, ships and submarines, and in marine environments, where safe and healthy building conditions are regulated with
respect to temperature and humidity, using fresh air from outdoors.
PROCEDURE:-
Step:-1
First we open the new project with the mechanical template, as shown below.

Step:-2
After opening the new project we use the manage links toolbar to link the previous project in the new project, as shown
below.
Next the previous project is linked to the mechanical project.

Step:-3
Next we provide air terminals and the mechanical equipment in the building, as shown below.

Step:-4
Next we turn it into the three dimensional model, as shown below.

RESULT:- HVAC system has been successfully designed for each floor based on the building designed.

3) Use the add-ins tab to load plug-ins for robot structural analysis to your Revit software
AIM:- To load plug-ins for robot structural analysis to your Revit software using the add-ins tab.
INTRODUCTION:-Robot Structural Analysis Professional is structural load analysis software that verifies code compliance and uses BIM integrated workflows to exchange data with Revit.
It can help you to create more resilient, constructible designs that are accurate, coordinated, and connected to BIM.
PROCEDURE:-
Step:-1
First we click on the autodesk app store, as shown below.
After clicking this, the autodesk store website will be opened.
Next download the structural analysis toolkit 2019 from the autodesk app store.

Step:-2
After installing the structural analysis toolkit, open the revit software.Then open the analyze toolbar, the robot structural analysis option will appears at the right side corner, as shown below.

RESULT:- The robot structural analysis is successfully installed from the autodesk app store.

4)A) Structural analysis is the process of calculating the forces, moments and deflections to which the members in a structure are t
be subjected. There is a vast range of analysis tools offering speed, precision and economy of design. 3-D, FE modelling, bespoke
portal frame, cellular beam or plate grider design software are now widely available. Modelling catenary actions, cold formed
member performance or grillage analysis - all these are now commonplace for structures, where hand analysis is impossible.
Increasingly sophisticated analysis methods continue to improve the accuracy with which the behaviour of structures can be
predicted.
To perform an accurate analysis a structural engineer must determine information such as structural loads, geometry, support
conditions, and material properties. The results of such an analysis typically include support reactions, stresses and
displacements. This information is then compared to criteria that indicate the conditions of failure. Advanced structural analysis
may examine dynamic response, stability and non-linear behavior. There are three approaches to the analysis: the mechanics of
materials approach (also known as strength of materials), the elasticity theory approach (which is actually a special case of the
more general field of continuum mechanism), and the finite elements approach. The first two make use of analytical formulation
which apply mostly simple linear elastic models, leading to closed-form solutions, and can often be solved by hand. The finite
element approach is actually a numerical method for solving differential equations generated by theories of mechanics such as
elasticity theory and strength of materials. However, the finite-element method depends heavily on the processing power of
computers and is more applicable to structures of arbitrary size and complexity.

5) AIM:- To export the complete analytical model to robot structural analysis from the structural model developed in week 6 and 7.
INTRODUCTION:-
Robot Structural Analysis Professional is structural load analysis software that verifies code compliance and uses BIMintegrated workflows to exchange data with Revit.
It can help you to create more resilient, constructible designs that are accurate, coordinated, and connected to BIM.
PROCEDURE:-
Step:-1
First we have to open the structural model.
Next we open the structural settings in the manage toolbar, as shown below.

Step:-2
Next we add the bounday conditions to the analytical model, as shown in the below figure.
Next we apply the loads to the analytical model using the loads option in the analyze toolbar, as shown below.

Step:-3
Next we have to exoport the complete analytical model to the robot structural analysis, using the robot structural analysis
option in the analyze toolbar, as shown in the below figure.

Step:-4
After selecting the robot structural analysis option the new tab will be visible and click on the ok button, as shown in the
below figure.

Step:-5

RESULT:-

6) 
A) Perform energy analysis on the building design through all stages, from the earliest conceptual phase through detailed design,
to ensure that you are constantly working towards the most energy efficient building possible. Energy simulation can help you
analyze the movement of energy in, out, and through the rooms and volumes in a building model. This information can help
designers make better informed, cost-effective decisions that improve the performance and reduce the environmental impact o
buildings.Whole building energy simulation measures expected energy use (fuel and electricity) based on the building's geometry
climate, building type, envelope properties, and active systems (HVAC & Lighting). It takes into account the interdependencies of
the building as a whole system. Use Energy Analysis to perform energy simulation for conceptual forms and detailed architectura
models created in Revit. Use the simulation results to understand building energy use. Then iterate the designs to improve their 
sustainability ratings.The energy model created from the Revit building model can be displayed in Revit, so you can view and
validate the energy model used for analysis. The energy model can also be exported to third-party applications for further
analysis in a variety of common formats: gbXML, DOE2, and EnergyPlus.
Sustainable design deals with the philosophy of having built and designed objects, buildings, environments and services that
conforms with the many principles of ecological sustainability. This includes maintaining change in a homeostatic environment
where the use of resources, inclination of investments, and the direction of development are balanced and meet the current and
future needs of humanity. Simply put, sustainable design represents development that not only meets the needs of the present
but does so without compromising the ability of future generations to meet their own needs. Ways to approach sustainable
design include utilizing sustainable chemical engineering, responsible resource management, and holistic environmental
protection