flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Corporate HQ in 10 months made possible with BIM coordination

Corporate HQ in 10 months made possible with BIM coordination

An integrated Building Team uses BIM/VDC to convert a 1940s-era industrial building into a flashy new headquarters for Hillshire Brands in a matter of months. 


By Amanda Carter, FE, Environmental Systems Design | October 2, 2013
To test the effectiveness of BIM modeling on the Hillshire Brands office project
To test the effectiveness of BIM modeling on the Hillshire Brands office project in Chicago, Environmental Systems Design compared several snapshots of the Revit model to post-construction photos of the same space. In every case, the two were nearly identical.

When Sara Lee Corp. changed its name to Hillshire Brands and relocated from the suburbs to downtown Chicago in December 2012, the company gained a new lease on life.

Hillshire moved a portion of its corporate headquarters into the newly renovated, four-story 400 South Jefferson Street building in the city’s West Loop. Built in 1944 for the Newman-Rudolph Lithographing Co., the 230,000-sf structure was stripped down to its cast-in-place concrete frame and rebuilt with a modern glass curtain wall façade, new passenger elevators, major building system updates, and an indoor parking garage. 

The $70 million, fast-track project—led by Proteus Group (architect, core and shell), Leopardo (general contractor, core and shell), Perkins+Will (architect, interior build-out), Clune (general contractor, interior build-out), Sterling Bay Cos. (owner/developer), Environmental Systems Design (MEP/FP), Project Management Advisors (project management), and Colliers (tenant representative)—was completed in just 10 months using a BIM/VDC/IPD workflow.

The core and shell team had the full 10 months to complete its portion of the project, but the interior build-out team had just four months. The interior work entailed four general office floors, three test kitchens, and a tower housing conference rooms.

Initially, the base building contractor modeled the as-built conditions using BIM, after which the interior design was added by Perkins+Will, before releasing the model to Environmental Systems Design. ESD had just four weeks to complete bid and permit documentation for the building’s MEP and fire protection systems. 

5 Tips for collaborating with BIM

 
1. All consultants working in BIM should coordinate during architectural model development, rather than after completion of the architectural model. Communicating your expectations prevents coordination issues from occurring later in the project design. In the case of the Hillshire HQ project, the architects and engineers met before the BIM model was initiated to talk about past concerns and project design expectations. 
 
2. Set up trade drawing sheets at the start of the project. Designers often forget to set up trade drawing sheets and don’t think about them until the end of the project when they want to print. The absence of trade drawing sheets can hold up a project. As cool as the 3D model is, the 2D drawing is what everyone will use after the design has been completed.
 
3. BIM programs are not CAD; don’t use them as if they were. Most AEC professionals learn how to design in 2D CAD, so when moving into BIM they try to replicate what is done in CAD, like drawing text boxes, without utilizing the “smarts” in BIM. In addition, understand that you’re working in a 3D environment and you need to pay attention to the “Z” axis, or the vertical plane. For the first time, height needs to be defined. How high are you mounting the ductwork or the light fixture? Those questions need to be answered early on. 
 
4. Use BIM to create ventilation schedules. Take advantage of the information already held in the model, such as the defined volume and ceiling height of each room. Let the BIM model fill out ventilation schedules and calculate air quantities of individual air terminals.
 
5. Set up electrical equipment properties and panel schedules at the beginning. This speeds up circuiting in the end. Every time a piece of equipment is placed into the BIM model, fill in the information about the piece of equipment from the start so that schedules auto-populate at the end.
— Amanda Carter

Could BIM really speed up design, eliminate coordination issues among the trades, and limit requests for information during construction? ESD set out to find the answer. 

Beginning with Autodesk’s Revit MEP, ESD engineers created a 3D interactive model. Using Revit’s automatic scheduling feature, they simulated the building’s potential loads, including air quantities and electrical loads. Defining the space types and square footage of each room within the model allowed BIM to automatically calculate the ventilation requirements of the applicable mechanical codes for each space. These quantities were scheduled and allowed the mechanical engineers to assure that the proper amount of supply air would be provided to each room.

Similarly, by defining specific loads and demand factors for the electrical elements within the Revit model, the panel schedules were able to self-populate and properly calculate both the total connected and demand load for each piece of electrical equipment in the building. This allowed for proper sizing of over-current protection for each piece of equipment throughout the electrical distribution, as well as the associated feeders and conduit. 

Because each of the schedules was based on the definition of elements within the model, they were able to self-populate and automatically update to changes, allowing for fewer coordination issues within the construction documents. The model also helped the team lay out the ductwork so that it coordinated with light fixture locations in the building’s open ceiling layout, and ensured that the design of the electrical equipment met the dimensions of the designated equipment areas. 

Together, these elements produced a complete model of the building’s MEP infrastructure with much more certainty than the traditional 2D modeling, and did so within the tight time frame. 

Unfortunately, however, BIM can’t read the human mind. When the base building contractor altered the layout of the large electrical rooms in the field, the project’s contractor couldn’t build out the space as designed by ESD, per the base building model. Switches and equipment were housed in different locations within the space, resulting in an RFI that required re-coordination. 

After the contractor in the field proposed a couple of options for the final equipment layout and ESD submitted the redesign, the large electrical rooms were built within the desired time frame. Despite this challenge, using BIM to coordinate between trades on the front end still resulted in fewer RFIs and allowed the Building Team to meet the tight design and construction schedule, avoiding major discrepancies in the field. 

Comparing 2D to 3D for Performance

As a comparison, ESD previously designed a similar project in 2D CAD. This second project employed the same lead engineers and interiors contractors, with similar square footage and a large commercial kitchen, and was designed and constructed as the base building was being completed. The result? The Hillshire headquarters had approximately half the RFIs of the 2D-designed project. 

To further test the success of BIM in the field, ESD selected a few locations throughout the Hillshire headquarters where “snapshots” of the Revit model were compared to post-construction photos of the same space. In every case, side-by-side visual comparisons showed that the construction documents were almost identical to what was installed in the field. Considering the speed at which both design and construction were completed, it was amazing that the end result so closely matched the original design. 

While BIM was used on the project primarily to coordinate between trades during design, in the end, it helped the entire Building Team meet a tight schedule, eliminate coordination problems between the trades, and limit RFIs in the field.

Amanda Carter, FE, is an Electrical Engineer and Associate at Environmental Systems Design, Chicago (www.esdesign.com). She can be reached at acarter@esdglobal.com.

Related Stories

Affordable Housing | Jun 12, 2024

Studio Libeskind designs 190 affordable housing apartments for seniors

In Brooklyn, New York, the recently opened Atrium at Sumner offers 132,418 sf of affordable housing for seniors. The $132 million project includes 190 apartments—132 of them available to senior households earning below or at 50% of the area median income and 57 units available to formerly homeless seniors. 

Lighting | Jun 10, 2024

LEDs were nearly half of the installed base of lighting products in the U.S. in 2020

Federal government research shows a huge leap in the penetration of LEDs in the lighting market from 2010 to 2020. In 2010 and 2015, LED installations represented 1% and 8% of overall lighting inventory, respectively. 

Libraries | Jun 7, 2024

7 ways to change 'business as usual': The Theodore Roosevelt Presidential Library

One hundred forty years ago, Theodore Roosevelt had a vision that is being realized today. The Theodore Roosevelt Presidential Library is a cutting-edge example of what’s possible when all seven ambitions are pursued to the fullest from the beginning and integrated into the design at every phase and scale.

Education Facilities | Jun 6, 2024

Studio Gang designs agricultural education center for the New York City Housing Authority

Earlier this month, the City of New York broke ground on the new $18.2 million Marlboro Agricultural Education Center (MAEC) at the New York City Housing Authority’s Marlboro Houses in Brooklyn. In line with the mission of its nonprofit operator, The Campaign Against Hunger, MAEC aims to strengthen food autonomy and security in underserved neighborhoods. MAEC will provide Marlboro Houses with diverse, community-oriented programs.

Contractors | Jun 4, 2024

Contractors expect to spend more time on prefabrication, according to FMI study

Get ready for a surge in prefabrication activity by contractors. FMI, the consulting and investment banking firm, recently polled contractors about how much time they were spending, in craft labor hours, on prefabrication for construction projects. More than 250 contractors participated in the survey, and the average response to that question was 18%. More revealing, however, was the participants’ anticipation that craft hours dedicated to prefab would essentially double, to 34%, within the next five years.

Airports | Jun 3, 2024

SOM unveils ‘branching’ structural design for new Satellite Concourse 1 at O’Hare Airport

The Chicago Department of Aviation has revealed the design for Satellite Concourse 1 at O’Hare International Airport, one of the nation’s business airports. Designed by Skidmore, Owings & Merrill (SOM), with Ross Barney Architects, Juan Gabriel Moreno Architects (JGMA), and Arup, the concourse will be the first new building in the Terminal Area Program, the largest concourse area expansion and revitalization in the airport’s almost seven-decade history. 

Multifamily Housing | Jun 3, 2024

Grassroots groups becoming a force in housing advocacy

A growing movement of grassroots organizing to support new housing construction is having an impact in city halls across the country. Fed up with high housing costs and the commonly hostile reception to new housing proposals, advocacy groups have sprung up in many communities to attend public meetings to speak in support of developments.

MFPRO+ News | Jun 3, 2024

New York’s office to residential conversion program draws interest from 64 owners

New York City’s Office Conversion Accelerator Program has been contacted by the owners of 64 commercial buildings interested in converting their properties to residential use.

MFPRO+ News | Jun 3, 2024

Seattle mayor wants to scale back energy code to spur more housing construction

Seattle’s mayor recently proposed that the city scale back a scheduled revamping of its building energy code to help boost housing production. The proposal would halt an update to the city’s multifamily and commercial building energy code that is scheduled to take effect later this year. 

Mass Timber | May 31, 2024

Mass timber a big part of Western Washington University’s net-zero ambitions

Western Washington University, in Bellingham, Wash., 90 miles from Seattle, is in the process of expanding its ABET-accredited programs for electrical engineering, computer engineering and science, and energy science. As part of that process, the university is building Kaiser Borsari Hall, the 54,000-sf new home for those academic disciplines that will include teaching labs, research labs, classrooms, collaborative spaces, and administrative offices.

boombox1
boombox2
native1

More In Category

Urban Planning

Bridging the gap: How early architect involvement can revolutionize a city’s capital improvement plans

Capital Improvement Plans (CIPs) typically span three to five years and outline future city projects and their costs. While they set the stage, the design and construction of these projects often extend beyond the CIP window, leading to a disconnect between the initial budget and evolving project scope. This can result in financial shortfalls, forcing cities to cut back on critical project features.




halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021