BIM Services in USA, Canada
BIM Services in USA, Canada
BIM Services in USA, Canada

Construction Project Management Services

Plant 3D Toolset for AutoCAD in 2022
Architectural CAD Drafting Services, Architecture & Building, CAD Drafting Services, Construction Project Management Services

AutoCAD Plant 3D Modeling Toolset for Design Collaboration in 2022

Plant 3D Toolset for AutoCAD in 2022

AutoCAD Plant 3D Toolset

Autodesk is leading the technical world of Architecture Engineering and Construction (AEC) industry. AutoCAD Plant 3D is an application developed by Autodesk for the designing and modeling of industrial plant facility.

AutoCAD plant 3D consists of the tools and features those designers need to create plant models including piping structure and equipment. Additionally, anything you model in AutoCAD can be a reference to the Plant 3D model in order to create a complete digital representation of your industrial plan facility.

In addition to modeling with AutoCAD Plant 3D, you can generate construction documents from the model including isometric drawing and Bill of Material (BOM). Plans, Sections, elevations and other orthographic drawings are also generated from the model.

In this article, we are introducing AutoCAD plan 3D, a BIM software, utilizing which we provide premium solutions to industrial plant projects.

Using the Plant 3D Toolset in AutoCAD Plant 3D – Things to Know

The tools of AutoCAD Plant 3D have multiple key features such as creating and editing Piping and Instrumentation Diagram (P&ID’s), 3D modeling and extracting piping orthographic and isometrics with an industry-specific toolset for plant design.

Plant 3D Collaboration | Piping and Instrumentation Diagram (P&ID’s)

Streamline Process and Plant Design with 3D

pipe and instrumentation diagram – P&ID is a project deliverable that is frequently used. Proper synchronization between P&ID and BIM model limits the risk of error.

Collaboration for Plant 3D: Real-time cloud-based collaboration of plant design takes place across the project team and enables required compliance in the Common Data Environment (CDE).

This enables design collaboration among multiple trades, any-time access to any construction document from anywhere inside the globe. The Administrator holds the control of providing access to relevant stakeholders to a specific centralized location to analyze the changes in 2D or, 3D model view, to manage data exchange by using multi-disciplinary shared packages to keep track on timeline and much more.

Intelligent P&ID drafting: AutoCAD Plant 3D allows to create intelligent P&IDs quickly and easily by just selecting industry-standard symbols from the tool pallet and placing them on the drawing.

Standard symbol libraries: The software toolset enables industry-standard symbol libraries in the tool pallets. The pallets contain multiple symbol standards templates such as PIP, JIS, ISO/DIN and ISA.

Data validation: Regular data validation in AutoCAD Plan 3D by scanning P&ID allows quick validation of common errors according to project standard results in data consistency.

3D Model Collaboration With AutoCAD Plant 3D

Plant 3D Collaboration in the Design Model

3-Dimentinal digital representation of industrial plant facility helps in visualizing the plant project in the common data environment (CDE).

Quick plant modeling in 3D: AutoCAD plant 3D is an easy-to-use plant modeling tool. The tool contains structural steel libraries, parametric equipment and project-specific piping using industry-standard piping catalogs for processing plant modeling.

Templates of parametric equipment: Pre-installed parametric templates enable the quick and easy process of recreating and editing equipment to help in creating a faster plant layout.

Structural modeling: Plant 3D helps in creating layout, structural models, stairs, ladders, and railings as per the standard practice of steel sections. Industry-standard includes AISC, CISC, and DIN.

Customizable project-specific piping specification: This tool of AutoCAD enables customizable industry-standard piping specifications to help in encountering project-specific.

Industry-standard including customizable industry-standard components.

Piping Engineering Drawings and Documents

Why Should I Use Plant 3D for Design

Documentations are necessary to execute every project and plant 3D allows users to prepare orthographic and isometric piping drawings in a single platform. 

Create customized piping orthographic drawings: Piping orthographic drawings can be extracted directly from the 3D model using AutoCAD Plant 3D and changes get updated automatically in the drawing.

Auto-creation of piping isometrics: AutoCAD Plant 3D tools allows user to directly create project-specific industry-standard piping isometric drawings.

Auto-reporting project specification: The toolset allows users to automatically generate data from the 3D model in a pre-defined report format for a specific project.

Documentation of BIM model: AutoCAD Plant 3D permits working with multi-disciplinary industry helps in creating BIM models for the plant.

Plant 3D Toolset for AutoCAD in 2022

Benefits of using the Plant 3D Toolset in AutoCAD

About the study:

study has been conducted by Autodesk comparing basic AutoCAD with AutoCAD Plant 3D toolsets. While performing very common six tasks used by process plant designers the result found was that basic AutoCAD provides up to 74% lesser productivity than AutoCAD Plant 3D toolset. Further to be noted that these tasks were performed by a very experienced AutoCAD user.

Point cloud to AutoCAD Plant 3D

In the current scenario, laser scanning and point clouds are essential tools in the entire construction cycle starting from the design stage. AutoCAD Plant 3D toolset contains a vast number of features enabling efficient project execution from point cloud. AutoCAD plant 3D toolsets turn laser scans into a precise construction drawing.

Process flow of Laser Scanning: The workflow of laser scanning and point cloud to construction is known as reality computing. The process involves three stages such as capture data, develop data, and modeling or, drafting deliverables.

Capture Data: Capturing data is a process of collecting available field conditions with the use of digital cameras or/and, surveying instruments which are widely known as 3D scanners in the construction industry.

Any device that can generate dense point clouds or polygon meshes by measuring the physical structure using lights, x-rays or, lasers can be considered as a 3D scanner. Tejjy Inc. being one of the best BIM automation companies uses LiDAR for Laser Scanning and Point Cloud.

Mostly Laser scanning and Point cloud features are being used to execute renovation projects.

Develop Data: The next step of Capturing data is processing the data into a useful form. The process is known as registration. While doing laser scanning from multiple positions of an entire project multiple images get generated of all sites.

Each and every scan creates an individual 3D point cloud. Registering each point cloud results in one coordinate system containing one point cloud data set. The entire process of data processing includes:

Registration of Point cloud data, Analyze and Measuring 3D laser scanned data, and Exporting data to AutoCAD Plant 3D

Modeling or, drafting deliverables: The processed data to be imported to AutoCAD ReCap, a program that accepts scan data and converts them as Reality Capture Scan (RCS) files.

Running the process each scan position is converted to an RCS file and the project saves as an RCP (Reality Capture Project) referencing the position of each RCS scan.

These files are now ready for use throughout all Autodesk design products that support point clouds such as AutoCAD Plant 3D.

Benefits of the Plant 3D Toolset in the Design Models

The BIM software is offering full solutions for industrial plant designers to create and edit P&IDs. From developing to modifying plant model process the toolset helps in producing drawings for Water and Wastewater Infrastructure, oil and natural gas plants, and other industrial facilities.

Enhanced Productivity: Automated and simplified tools of the software streamlines, editing, and designing process. The specification-driven BIM software allows modeling of industrial plants, water treatment facilities, oil and natural gas plants, equipment, piping, supporting structures and other plant components.

Improved Accuracy and Consistency: BIM models generated using AutoCAD Plant 3D are much informative so that any time data can be extracted from the model, instrumentation diagram, orthographic drawings, and isometric drawings.

The data are easily reviewed and edited from the drawings whenever required.

Better Team Collaboration and Coordination: Real-time digital collaboration allows project stakeholders to stay updated and helped them in informed decision making. Multi-trade model coordination allows in design review, 3D visualization and detecting clashes.

Conclusion

AutoCAD Plant 3D toolsets are one of the most useful applications introduced by Autodesk. Tejjy Inc. having 15 years of experience in the AEC industry utilizing the toolsets to efficiently deliver plant projects.

what are mep plans - mep cad drafting services
Construction Project Management Services, Coordination Drawings, Mechanical Shop Drawings

MEP Plans in Construction of Building and Industrial Projects

what are mep plans - mep cad drafting services

MEP Plans in Construction

MEP – A brief introduction

You’ve probably seen mechanical, electrical, and plumbing (MEP) plans if you’ve been in the building automation industry for any period of time. These Plans are the blueprints that describe how a building should be constructed. The MEP plans contain a lot of information that will be useful to you as a controls professional.

MEP is the abbreviation of Mechanical Electrical And Plumbing. MEP is necessary for various constructional coordination. MEP includes electrical design and drafting, mechanical designing and drafting, plumbing designing and drafting. The various software’s used for drawing is AutoCAD and Revit MEP. 

In our previous post, we discussed topics like benefits of MEP shop drawings that you should know. Standardizing your building process with MEP shop drawings ensures that the products meet industry standards.

People also ask questions like –

What is MEP in construction?

What is a MEP drawing?

What is included in MEP drawings?

What is the role of MEP in construction?

MEP (Mechanical,  Electrical, and Plumbing) plans are a common part of the building automation sector. If you have delved into the domain of building automation for quite some time, you should be aware of the fact that mechanical and electrical plans are the fundamental details of your construction process.

As communication is a vital part of living, similarly MEP plans are essential for creating the building structure. The MEP shop drawings serve as a blueprint for carving out the details of how a building should be constructed. MEP engineers take a lot of information from the MEP plans. Mechanical and electrical plans illustrate how the HVAC and electrical systems of the buildings are laid out, considering the main purpose of Building Automation System (BAS) control. Utilizing the MEP Shop Drawings Services for construction projects turns out be beneficial for the structures.

What Is the Purpose of MEP Shop Drawings?

MEP engineers work with 3D shop drawings for the coordination of MEP services. MEP coordinated shop drawings comprise of HVAC, electrical, plumbing, piping, as well as other duct-work layout drawings. Top MEP BIM modeling companies in the USA provide HVAC shop drawings services along with electrical and plumbing drawings for AEC professionals.

The 3D BIM model helps to produce accurate shop drawing work at home or in the office. Irrespective of the location, BIM modeling services facilitate MEP engineers to get improved fabrication, installation of MEP components, scheduling of trades, and various other actions about construction. MEP Drawings created from the MEP model ensure that the building contractors get the right information for accurate structural installation.

Coordinated drawings enable data extraction and manipulation of various services and enhance the accuracy of the building design development process.

The MEP drawings improve the quality and productivity of construction through off-site fabrication and improved plans.

Potential clashes amongst the various services get identified before fabrication and installation on the construction site.

As a result, the building project can be viewed as a whole instead of a separate drawing.

MEP drawings provide construction cost-saving (Approximately 30%) along with the improvement in the building delivery schedules to over 40%.

Different Types of HVAC Drawings

what does mep mean in construction

Using mechanical electrical plans produced through BIM,  construction professionals deliver HVAC drawings through schedules, floor plans, details, and HVAC duct shop drawings.

Types of HVAC drawings that we offer are – 

Mechanical Schedules

Mechanical schedules are a treasure to the construction professionals working with Building Automation Systems. Through HVAC schedules, engineers get to know about the size of the box, the CFM (Cubic Feet Per Minute) measurement of airflow volume, the expected rise of the air temperature as well as the drop of the water temperature.

A good mechanical schedule helps you understand the performance of the installed parts, how the systems are designed and whether they aren’t operating properly or not.

3D Floor Plans

3D floor plans of a building constitute to be self-explanatory layouts of a floor. MEP floor plans focus on the supply, exhaust, and sensor locations along with isolation dampers for effective shut-off and isolation of tiers in a hazardous containment exhaust system. A competent floor plan produced from the BIM model helps you to stay ahead of the curve.

Detail Drawings

A detailed building drawing helps you to pay attention to the mechanical details of a building. To take an instance, the drawings show how the manufacturers provide the dampers and are controlled by the building contractors.

Construction project stakeholders get to know about various details like What would happen if the embedded controls get disconnected ? Should you connect controls in parallel to the manufacturers?

Duct Shop Drawings

HVAC shop drawings with all technical information are produced with the help of various BIM software applications such as Revit, AutoCAD, etc. The mechanical drawing also acts as efficient construction documentation for finding out any flaws at a later stage.

In case an HVAC duct pipe is found to be very small after construction site delivery, the MEP designers could use the drawings for detecting the exact cause of the defect.

Having the construction documentation facilitates the designers to resolve the problems and determine the steps for correcting the errors. Further, the MEP documentation is often organized for seeking approvals from qualified engineers while submitting plans to building authorities. HVAC Shop drawings also help to define the exact cost of the materials and the measurement of the materials during the production process.

Our HVAC Duct Shop Drawings include –

  • HVAC Duct Layout
  • Material Specifications of the Ducts
  • Duct & Pipe Sizes
  • HVAC Coordination Details
  • Details of Air Handling Units
  • Duct Levels & Sections

The Role of MEP in Building Construction Explained

Coordinated MEP shop drawings are a great support to various design-build projects in several areas. These drawings include –

Electrical technical drawings

Underground & above-ceiling coordination

Composite drawings

Coordinated shop drawings

Sheet metal detailing’s

Pipe fabrication

HVAC & Ductwork drawings

Plumbing drawings

Mechanical piping detailing

Mechanical & HVAC detailed drawings

Equipment placement

So, this is just an overview of MEP drawings and how these drawings are competently supporting the construction workflow.

Want to know more about – “What is MEP drawing?” Get the right guidance for your construction project from Tejjy Inc. – one of the best BIM service providers in the USA and start working on HVAC shop drawings. Send a mail to info@tejjy.com, call at 202-465-4830, or fill the inquiry form to get the best quotation.

Architectural 3D Rendering Services in DC
3D Modeling Services, Architectural Services, BIM Facility Management, BIM Service, Blog, Construction Project, Construction Project Management Services

Showcase Photo-realistic Output with Architectural 3D Rendering Services

Showcase Photo-realistic Output with Architectural 3D Rendering Services

Want quality Architectural 3D Rendering Services for residential, commercial and institutional structures? 3D Rendering can help to showcase quality photorealistic output to potential clients before the actual commencement of the project.

Architectural 3D Rendering Services add value to realtors, architects and property developers in the minimum time frame and optimal prices. A competent architectural 3D rendering service provider can accentuate your property marketing, using quality visuals across social media platforms such as YouTube, Instagram and Facebook.

Bunch of Architectural 3D Rendering & Visualization Services:

  • Architectural 3D Renderings:
  • 3D Exterior, Interiors & Floor Plans
  • 3D Aerial Visualization
  • Virtual Staging
  • Architectural 3D Animation:
  • 3D Walkthroughs &Virtual Tour
  • BIM Virtual Reality 360 Construction
  • Architectural BIM Modeling & Drafting:
  • 3D BIM Revit Modeling
  • AutoCAD Drafting
  • Construction Detailing

What is 3D Architectural Rendering?

Whenever a CAD or PDF file including site plan, floor plans, elevations, and sections are converted into a 3D model and applied with furnishings to build a photo-realistic image, it’s entitled as a 3D render.

There are 5 main types of 3D rendering options for the property developers including:

  • 3D Exterior Rendering – This emphasizes on the outside of the property and the surroundings.  You may choose only on the building or get a render including the surrounding neighborhood and landscapes such as water bodies, fences, vegetation, and porches. Different lighting conditions can also be tried around like the Morning, Dusk or Daylight. Weather conditions like the Rainy or Snowflake can also be manifested into striking marketing collaterals.
  • 3D Interior Renders – Interior renders divulge the vantage point of the insides of the property. Developers can show a specific view to their customers capturing several zones like the entrances, halls, and arrangement of diverse facilities in the lobby.
  • 3D Aerial Render – This helps to showcase the property from the above, focusing on the neighboring environment of the building. 3D Aerial renders are perfect for showcasing how the new building will fit into the existing environment.
  • 3D Floor Plan – The rendering of the 3D Floor Plan gives a penetration to the conventional 2D floor plans. The floor cut renderings let prospective purchasers visualize themselves in the home or building and comprehend the spatial arrangement of several areas within the property.
  • 3D Walkthroughs – It is the most valuable deliverable that provides a video output where a client can take a virtual tour of the property in a lifelike manner. The 3D animation facilitates the prospective buyers to take a simulated tour of the building before the beginning of the actual construction for providing a strong sense of the feel, layout & features of the property.

What are the Common Practices for 3D renders?

Image marketing is the pivot of real estate marketing and 3D renders play a key role in this regard.

  • Obtaining Permits & Approvals of Local Bodies: Depending on the place where you want to develop the property, there could be an obligation for presenting your project plan with the local associations for permits. Showcasing 3D Aerial Views together with 3D Exteriors reveal the way newfangled structure shall merge with the current surrounding or neighborhood.
  • Promotion: Property development agencies are often required to undertake extensive promotion of their building process. This helps in attracting prospective tenants or buyers to the property. 3D renderings are indeed spectacular, facilitating the property developers to develop an interest in the local community.
  • Ongoing Marketing: Animations and virtual 3D floor plans let the property development companies seek ongoing marketing schemes without leaving their offices. This helps in showcasing the properties on the website or social media and makes them available to interested parties.
  • Quick Financing: Using 3D renders, it is easy to get apt financing for a property, which is often challenging in the development cycle. Laying technical reports before a financier could be a bit confusing. However, 3D render facilitates in revealing the vision in an accurate way.
  • Enhanced Communication: 3D rendering helps in comprehending blueprints within a team of technocrats, which can otherwise be frustrating and time-consuming.
  • Reduced Cost of Development: Errors may occur during the design phase, which one wants to identify before the onset of a building process. 3D renderings facilitate the project stakeholders to detect and correct errors quickly, thus reducing the costs of project delays.

What could be the expected price of Architectural 3D Rendering Services in the USA?

  • Exterior Rendering for Residential Project @ $325-600 per image
  • Interior Rendering for Residential Project @ $250-500 per Image
  • Exterior Rendering for Commercial Project @ $375-850 per Image
  • Interior Rendering for Commercial Project @ $275-650 per Image
  • Exterior Rendering for High Rise Buildings @ $725-1500 per image
  • 3D Floor Plans @ $215-450 per floor
  • 360° Virtual Reality @ $385-1500 per camera shot
  • 360° Virtual Reality @ $385-1500 per camera shot
  • Animation @ $65-100 per sec

Choose a Professional 3D Rendering Company in the USA

Get in touch with Tejjy Inc.– an architectural & engineering service provider in DC at 202-465-4830 or info@tejjy.com to get 3D Architectural Rendering, 3D Visualization & Animation Services for commercial & residential projects. Experienced professionals of Tejjy Inc. build impactful marketing creative for AEC projects. Be it 3D Interior Rendering of Living Area, 3D Renders of Living Room in High Rise Tower, 3D Daylight Rendering of Living cum Kitchen, 3D Commercial Exterior Rendering, Exterior Front view of HD Theatre or 3D Interior Living Room Rendering with Style & Simplicity, Tejjy Inc. delivers all with a unique grace & finesse.

Special Mission for the Blue & Golds
Construction Project Management Services

Special Mission for the Blue and Golds

Special Mission for the Blue and Golds

The U.S. Naval Academy maintains a tradition of producing young men and women who will go on to lead one of the country’s five branches of the military. The academy expects excellence in the classroom and excellence in the sports arena. A plan was developed to make modifications to the Navy-Marine Corps. Memorial Stadium in Annapolis, Maryland, one CSDA member had to be at the top of their game to complete a portion of this challenging project.

Purpose of Renovation 

The stadium was opened in 1959 and is home to the Navy Midshipmen football team, the Navy Men’s Lacrosse team, and the MLL’s Chesapeake Bayhawks Lacrosse team. The Naval Academy needed to renovate a section of a mid-level wall in the 34,000-seat venue to incorporate elevator access to new skyboxes at the east end or “gold” side of the stadium. There was only a short time available to carry out this renovation, as the graduation ceremony for the 2010 Naval Academy class was about to take place just two days after the work was due to start.

Stadium Details 

The mid-level exterior wall of the stadium consisted of two 8-inch-thick concrete walls with a small space between them. An opening measuring 14 feet wide by 4 feet tall was required and was to be included being safety sealed. Besides, further cutting work would be necessary some weeks later inside the stadium to allow the general contractor to connect the new skyboxes to the existing structure. This work would consist of cutting 136 feet of a concrete wall that varied in thickness from 8 to 12 inches.

Special Mission for the Blue & Golds

Aerial View of the Stadium

Project Stakeholders Involved in the Stadium Renovation 

Structure Tone, Inc. of Washington, DC, was the general contractor for the stadium renovation work. The company selected Viking Enterprises as the demolition contractor for the job, who then contacted CSDA member G&S Concrete Cutting of Rockville, Maryland, to perform the specialist cutting work that would create the specified opening. 

Quote from Operation Manager

“We were very proud to be called in on such a fast-paced, high-profile project,” said Rob

White, Operation Manager for G&S. “Viking Enterprises came to us because of our professionalism and ability to work within a strict time.” 

Proposed Plan for Creation

For the creation of the 14-foot-wide by 4-foot-tall opening, G&S proposed a plan to use a diamond wall saw to cut the section free. The general contractor was in agreement with this plan, and no other methods of demolition were considered. Alternative demolition methods, such as jackhammers, would have produced large amounts of debris and much more time would have been required to attain the precise dimensions of the specified opening. Before work commenced, G&S needed to subcontract a crane operator for the next day to hold the cut section of concrete during cutting and remove it. A 100-ton Liebherr crane was supplied. The following day, G&S arrived on site to set up equipment to begin cutting the opening. An operator core drilled two 4-inch-diameter holes through both 8-inch-thick outer precast and inner cast walls using a CB748 core drill from Diamond Products. The holes were to be used to thread through crane connections for the safe removal of the sections, once cut.

Implementation of the Plan

The cutting team, working approximately two stories up in a boom lift, used a hydraulic hand saw with a 20-inch Diamond Products blade to perform the wall cuts, before switching to an ICS 880 series chain saw to complete the corner cuts. Cutting and removal of both inner and outer wall sections, weighing 9,520 pounds and 5 tons respectively, were completed within five hours of the first day’s work. Following the successful completion of this cutting work within a short time scale, G&S was contacted several weeks later for another job.

Within three weeks, the contractor was asked to return to the stadium to cut and remove 136 linear feet of concrete from the top wall. The cutting work was split into eleven 12-foot-long sections that ranged from 8 to 12 inches thick. Some parts were to be cut by wall saw and removed by crane, while other sections had to be cut free using a hand saw and placed onto pallets for removal.

Corner cuts were made using a diamond chain saw.

Time Taken

New skyboxes were installed at the top of the stadium after cutting because of a 52-foot-long by a 5-foot-wide overhang on the part of the wall would not allow access by the crane. The team from G&S took 12 days to cut and remove the 12 sections of concrete. A Hydro stress wall saw from Tyrolit, with a 36-inch-diameter blade from Diamond Products, was used to make the cuts and wet vacuums were employed to collect and contain any slurry. Cutting of each section took three hours, while removal by crane took 30 minutes for each 4.2-ton piece from inside the stadium.

Challenges Faced 

The use of pallets to remove some of the cut wall sections worked well as an alternative method of removing those concrete sections with an overhang, but there were a couple of other factors that presented challenges for G&S. Water supply for cutting and the positioning of hydraulics at the work area required some extra effort. The cutting area was located 250 feet above the nearest water supply, so a water hose had to be run-up to the top of the stadium to allow wet cutting. The foundation and sections of the steel structure had already been set in place to construct the new skybox, so the positioning of the contractor’s truck and hydraulic equipment was limited. The general contractor was able to remove a section of fencing around the stadium to move the truck and equipment closer to the work area.

Cut wall sections were lifted out by crane or placed on pallets for removal.

Solution – Problem Solving Approach for Overcoming the Challenges

  • A 60-foot boom lift was utilized to position operators at the work face; therefore, safety harnesses were required to be worn and secured to the elevator at all times during cutting.
  • All other items of personal protective equipment were worn by the contractor’s team to ensure safe operations.
  • A 20-amp CB748 Diamond Products core drill was used to create the holes for the crane connections. 
  • Diamond Products also supplied the 20-inch-diameter blade for the hand sawing portions of the work, with an ICS 880 series chain saw used to perform the corner cuts.
  • Wall sawing of the 12-foot-wide sections at the top of the stadium was completed using a Hydrostress V465D1 saw from Tyrolit with a 36-inch-diameter blade from Diamond Products.

Result

  • The total amount of concrete cut at the Navy-Marine Corps. Memorial Stadium was 570 linear feet of 8- to 12-inch-thick wall sections. Both stages of the project performed by G&S were completed on time and within budget.
  • The project was a design-build that took only five months from design to completion. The new skybox area at the stadium was opened in September, and now fans of Navy’s sports teams can cheer on the blue and golds from this vantage point. 

Testimonial from CEO -”We are happy to have completed this work for the Naval Academy, and are pleased with the results,” said Preetie Ghotra, CEO of G&S.

 

Tejjy INC