Building Information Modeling (BIM) for green buildings

BIM is a 3D process that provides an insight to professionals to plan, design, construct and infrastructure. It has been broadly recognized in the Architecture Engineering and Construction (AEC) industry.

Advantages of BIM in AEC

  • It helps the AEC industry to reduce sustainability concerns such as Carbon dioxide emission, dependency on fossil fuel for energy strategies, and energy consumption by adopting green building strategies.
  • Beside these concerns, BIM software provides solutions and ideas for reducing CO2emission, analyze and evaluate energy performance, optimize natural ventilation system and decreases the impact of the sun on the building, increases the importance of thermal comfort, recommend ideas for controlling water usage, and stimulate acoustic performances.
  • BIM tools are of great use when designing the green buildings or their operational management phase.
  • It can facilitate data exchange and integration, improves the communication channel between stakeholders, and allow people to visualize and analyze the building energy performance.

Use of BIM in the AEC industry increases the quality of work, improves speed and productivity, and lower the cost of projects.

Future Scope

BIM adds value to green building development but has some gaps which can be responded by future research and studies.

  • Future BIM software can integrate with emerging technologies like augmented virtual reality, to allow people to experience the real world more vividly.
  • It not only focuses on evaluating and developing the prototypes. Instead, aim to investigate the real need of BIM software, align with the actual performance from practitioners and their interest in BIM green.
  • It concentrates on strengthening the interoperability between green BIM applications and develop strong industrial standards for green BIM projects.

Proper alignment of BIM development is to be done with green BIM projects in the future.

Sneak Peek on Top Eight Features of SOLIDWORKS 2019

The SOLIDWORKS World 2018 showed off some of the awe features to come in SOLIDWORKS 2019, and some of these features caused the Los Angeles crowd to break out in unprompted applause. But now, with the beginning of 2019 we will actually see these new features of SOLIDWORKS 2019 live. Before that, let’s have sneak peek on these top 8 features:

3D Texturize Body

This feature promises to be a massive boon in screening products as they look in real life, such as a grip on a lever. It generates an offset mesh body from current stable, with control panels to refine the size and texture.

 

Mesh Slicing and Topology Study

The upcoming version of the software will do a form optimization taking inputs as stress, factor of care and occurrence constraints. More so, the new net slicing feature would help make drawings from the subsequent mesh body and uphold positions.

 

Group Mates by Rank

As you can group mates by their position you’ll be able to cluster mistakes as suppressed, lazy, cracked, and over-defined mates together.

 

Partial Fillet

You’ll like that chamfers and fillets can be partly useful to an edge. You’ll be able to regulate the distance, percentage, orientation, and drag lever offsets.

E-Drawings and VR Support

SOLIDWORKS 2019 will add Virtual Reality to support E-Drawing viewers, thereby allowing users to view virtual drawings.

 

SOLIDWORKS visualize DENOISER

SOLIDWORKS Visualize will integrate NVIDIA’s AI-based Optix “DE noising” technology to quickly provide photo realistic renderings. SOLIDWORKS will give a 10x boost in rendering performance.

 

DEFEATURING ASSEMBLY

Now the users will have capabilities of Defeaturing Assemblies, protecting the form and spirit of an assembly while beating irrelevant or delicate details.

 

ON THE EXTERIOR

People who like to take notes by hand, this 2019 generation software will allow users to markup their model’s handwritten notes, which will be saved with that model. The next generation of software will enable users to bring some exciting possibilities to Microsoft surface users. Microsoft surface pen users will also be able to get most out of their stylus, as the software will automatically convert drawing into an applicable feature.

Notably, SOLIDWORKS 2019 is all set to revolutionize the design industry in the 2019. So, get ready to witness some dramatic transformation in 2019 with these new SOLIDWORKS features.

Top 5 Points on Implementation of VR in Product Designing

Today’s most ground-breaking manufacturing companies are saving thousands of dollars and reducing construction timing by implementing virtual reality (VR). Whether these organizations are designing or authenticating their concepts, or seeing their application in real-time on the construction floor, immersive imagining is proving its worth. Therefore, we have listed below some points to demonstrate the application of VR, check it out:

1. CAD-oriented product design

VR is mainly useful to product design teams when they are testing and interrelating with the product.

2. Distinguish in details

Interpreting a virtual product design at a high frame rate is significant for interactive skills that need a lot of movement on the portion of the user. Understanding that there is a catch-22 between assigning resources for geometric difficulty and frame rate.

3. Aesthetics of geometry

Product designs vary importantly, and therefore, significance of aesthetics versus functionality needs to be understood well in advance. High-quality, fully detailed forms are important features that help communicate the aesthetic value.

4. Implementing VR system is not a piece of cake

Though the charge of implementing a VR system for product design continues to go down; however, the financial resources required to build, function and continue it is substantial. Getting people on board internally will be as stimulating as convincing decision-makers in management to pay money.

5. Return on Investments must not depress

Once the VR system is upheld at your organization, track how frequently people are using it, what they are using it for, and why they are using it on database. These records can help you create approximations for potential gains.

Precisely VR system not only helps you design team with advance procedures, but also supports product’s lifecycle. More so, it assists the team understand the ins and outs of installing, working, upholding and fixing a VR system design to produce greater ROI.

NOW ANSYS 19.2 WITH FASTEST CFD, AUTONOMOUS VEHICLES AND MANY MORE

ANSYS a company which develops, markets, and supports engineering replication software used to forecast how product designs will act in real-world environment. Engineering simulation is their sole focus. Their latest release of ANSYS 19.2 software has updated tools that will support autonomous vehicles designing, additive manufacturing, optics and assembly. Some of the important features of ANSYS 19.2 are:

Automotive System

ANSYS 19.2 introduced the ANSYS VRXPERIENCE, which permits operators to fully and realistically simulate independent vehicles using real-world customizable conditions.

Increased Use of Optics

ANSYS 19.2 contains a capital of general optical imitation tools, such as ANSYS SPEOS which is one solution for imitation of optics and optoelectronics. These new tools permit imitation of lighting, interior and exterior lighting, cameras and LiDARs, and delivers designers with the ability to assess optical performance while reducing expansion time and costs.

Digital Twins Bug

New capabilities of ANSYS 19.2 make it easier to shape, authenticate and organize digital twins more quickly. Now, users can create images of 3D fields of static ROMs (Reduced Order Modeling) and view simulation results, such as speed and flow rate, on the 3D geometry of the twin.

Preservative Manufacturing

ANSYS 19.2 continues to deliver the Additive Suite and Additive Print tools for imagining 3D printing processes. It also offers a beta version of Additive Science. This technology allows operators to simulate the micro structure and advance insight into the properties of the final published part.

Computerized Fluid Dynamics

In the fluids suite, ANSYS 19.2 delivers new features to accelerate CFD simulations for boosting productivity. It works on the basis of Mosaic meshing technology.

Discover Live Updates

This feature gives a boost to its abilities by allowing users to account for the angular speed of rotating components in a fluid simulation. This is especially useful for understanding the result of wheel rotation on a vehicle and detecting real-world trends in virtual designs.

Physical Simulations

The new Material Designer feature can make full models of fiber-filled, woven or lattice resources, and then calculate equivalent belongings for use in larger-scale imitations. In topology optimization, ANSYS 19.2 has extra loading options, manufacturing restraints that are perfect for preservative manufacturing, and a sole lattice optimization capability.

Overall, the features mentioned above shows some additional features incorporated in ANSYS 19.2. Precisely, these additional features would improve the productivity of ANSYS and would enhance the overall user experience.

Engineering Education and Job Satisfaction

A couple of years back, a bachelor’s degree in engineering was assumed to be enough to achieve success in the career. But, with more competitiveness in the industries, the employers now seek candidates that hold advanced degrees in engineering. These degrees also helps the professional to move into job roles that are more challenging, highly paid, and with more responsibilities.

Recent research about degrees and job roles stated that:

  • Bachelor’s degree was the most common degree across the technical industries.
  • Master’s degree held the second highest position.
  • An exception was seen in the education sector that held a higher number of doctoral degrees.

Degree Types and Job Roles

Degrees plays a significant role in the employee job responsibilities. A match between the job roles and education is thus important for success. Therefore, people who wish to succeed in their career opt for advanced degrees in their field. It is often observed that:

  • Most of the successful people working in the same field of their education had both a bachelor’s and a master’s degree.
  • These professionals persuaded for a higher level of education to gain a deeper understanding of their fields and advance on their career paths.

Job Satisfaction

It is one of the most motivating factors to go for an advanced degree.

  • Most of the professionals believe that having a masters or a PhD degree helps them excel in their career.
  • It helps to gain an improvedbreadth of knowledge and expertise in their filed.
  • It gives professionals a higher level of job satisfaction and enjoyment of their tasks.
  • Lastly, it offers a high range of salary which gives them a feeling of satisfaction.