Industrial

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What happens when your engineer can TALK with you, not at you?

 

At PCS, our engineers do more than analyze and compute – we talk with personality and engagement that connects our teams. We relish the magical combination of singular expertise and diverse ideas that creates great buildings. Our single-discipline passion advocates multiple perspectives, connects all disciplines, and powers clear solutions.

 

Click the featured projects below to learn more.

 

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What happens when your engineer can TALK with you, not at you?
 
At PCS, our engineers do more than analyze and compute – we talk with personality and engagement that connects our teams. We relish the magical combination of singular expertise and diverse ideas that creates great buildings. Our single-discipline passion advocates multiple perspectives, connects all disciplines, and powers clear solutions.
 
Click the featured projects below to learn more.
 

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What happens when your engineer can TALK with you, not at you?

 

At PCS, our engineers do more than analyze and compute – we talk with personality and engagement that connects our teams. We relish the magical combination of singular expertise and diverse ideas that creates great buildings. Our single-discipline passion advocates multiple perspectives, connects all disciplines, and powers clear solutions.

 

Click the featured projects below to learn more.

 

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What happens when your engineer can TALK with you, not at you?
 
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Click the featured projects below to learn more.
 

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People Driven Delivery
Connected Teams. Bold Solutions.
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What happens when your engineer can DRAW an idea?

 

A picture tells a thousand words and, in the midst of the complexity and commotion of a typical project, PCS engineers draw.  Quick, informative visuals capture team ideas, power elaboration and analysis, and move concepts forward in real time.  It’s intuition—immediate understanding—that furthers design, costing and constructability.

 

Click the featured projects below to learn more.

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What happens when your engineer can DRAW an idea?
 
A picture tells a thousand words and, in the midst of the complexity and commotion of a typical project, PCS engineers draw.  Quick, informative visuals capture team ideas, power elaboration and analysis, and move concepts forward in real time.  It’s intuition—immediate understanding—that furthers design, costing and constructability.
 
Click the featured projects below to learn more.

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" } } } ["rdf_mapping"]=> array(9) { ["rdftype"]=> array(2) { [0]=> string(9) "sioc:Item" [1]=> string(13) "foaf:Document" } ["title"]=> array(1) { ["predicates"]=> array(1) { [0]=> string(8) "dc:title" } } ["created"]=> array(3) { ["predicates"]=> array(2) { [0]=> string(7) "dc:date" [1]=> string(10) "dc:created" } ["datatype"]=> string(12) "xsd:dateTime" ["callback"]=> string(12) "date_iso8601" } ["changed"]=> array(3) { ["predicates"]=> array(1) { [0]=> string(11) "dc:modified" } ["datatype"]=> string(12) "xsd:dateTime" ["callback"]=> string(12) "date_iso8601" } ["body"]=> array(1) { ["predicates"]=> array(1) { [0]=> string(15) "content:encoded" } } ["uid"]=> array(2) { ["predicates"]=> array(1) { [0]=> string(16) "sioc:has_creator" } ["type"]=> string(3) "rel" } ["name"]=> array(1) { ["predicates"]=> array(1) { [0]=> string(9) "foaf:name" } } ["comment_count"]=> array(2) { ["predicates"]=> array(1) { [0]=> string(16) "sioc:num_replies" } ["datatype"]=> string(11) "xsd:integer" } ["last_activity"]=> array(3) { ["predicates"]=> array(1) { [0]=> string(23) "sioc:last_activity_date" } ["datatype"]=> string(12) "xsd:dateTime" ["callback"]=> string(12) "date_iso8601" } } ["cid"]=> string(1) "0" ["last_comment_timestamp"]=> string(10) "1534182135" ["last_comment_name"]=> NULL ["last_comment_uid"]=> string(2) "78" ["comment_count"]=> string(1) "0" ["name"]=> string(10) "MBergstrom" ["picture"]=> string(1) "0" ["data"]=> string(24) "a:1:{s:7:"overlay";i:1;}" } } } ["field_field_project_image_list"]=> array(1) { [0]=> array(2) { ["rendered"]=> array(5) { ["#theme"]=> string(15) "image_formatter" ["#item"]=> array(15) { ["fid"]=> string(4) "1885" ["uid"]=> string(2) "78" ["filename"]=> string(13) "Draw LIST.jpg" ["uri"]=> string(36) "public://projects/list/Draw LIST.jpg" ["filemime"]=> string(10) "image/jpeg" ["filesize"]=> string(5) "84428" ["status"]=> string(1) "1" ["timestamp"]=> string(10) "1534182135" ["type"]=> string(5) "image" ["rdf_mapping"]=> array(0) { } ["image_dimensions"]=> array(2) { ["width"]=> string(3) "320" ["height"]=> string(3) "320" } ["alt"]=> string(0) "" ["title"]=> string(0) "" ["width"]=> string(3) "320" ["height"]=> string(3) "320" } ["#image_style"]=> string(19) "projects_list_thumb" ["#path"]=> array(2) { ["path"]=> string(8) "node/281" ["options"]=> array(2) { ["entity_type"]=> string(4) "node" ["entity"]=> object(stdClass)#251 (35) { ["vid"]=> string(3) "547" ["uid"]=> string(2) "78" ["title"]=> string(24) "Instant Visual Intuition" ["log"]=> string(0) "" ["status"]=> string(1) "1" ["comment"]=> string(1) "1" ["promote"]=> string(1) "0" ["sticky"]=> string(1) "0" ["nid"]=> string(3) "281" ["type"]=> string(15) "project_details" ["language"]=> string(3) "und" ["created"]=> string(10) "1534182135" ["changed"]=> string(10) "1534266184" ["tnid"]=> string(1) "0" ["translate"]=> string(1) "0" ["revision_timestamp"]=> string(10) "1534266184" ["revision_uid"]=> string(2) "78" ["body"]=> array(1) { ["und"]=> array(1) { [0]=> array(5) { ["value"]=> string(554) "

What happens when your engineer can DRAW an idea?

 

A picture tells a thousand words and, in the midst of the complexity and commotion of a typical project, PCS engineers draw.  Quick, informative visuals capture team ideas, power elaboration and analysis, and move concepts forward in real time.  It’s intuition—immediate understanding—that furthers design, costing and constructability.

 

Click the featured projects below to learn more.

" ["summary"]=> string(0) "" ["format"]=> string(13) "filtered_html" ["safe_value"]=> string(511) "

What happens when your engineer can DRAW an idea?
 
A picture tells a thousand words and, in the midst of the complexity and commotion of a typical project, PCS engineers draw.  Quick, informative visuals capture team ideas, power elaboration and analysis, and move concepts forward in real time.  It’s intuition—immediate understanding—that furthers design, costing and constructability.
 
Click the featured projects below to learn more.

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Instant Visual Intuition
Connected Teams. Bold Solutions.
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What happens when your engineer can FACILITATE a conversation?

As the floors of a structure build upon each other, so do ideas within teams. PCS engineers facilitate discussions to power the fast flow of ideas, pulling concepts, pushing details, addressing upcoming concerns and thinking big on every floor of the building process.

Click the featured projects below to learn more.

" ["summary"]=> string(0) "" ["format"]=> string(13) "filtered_html" ["safe_value"]=> string(430) "

What happens when your engineer can FACILITATE a conversation?
As the floors of a structure build upon each other, so do ideas within teams. PCS engineers facilitate discussions to power the fast flow of ideas, pulling concepts, pushing details, addressing upcoming concerns and thinking big on every floor of the building process.
Click the featured projects below to learn more.

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What happens when your engineer can FACILITATE a conversation?

As the floors of a structure build upon each other, so do ideas within teams. PCS engineers facilitate discussions to power the fast flow of ideas, pulling concepts, pushing details, addressing upcoming concerns and thinking big on every floor of the building process.

Click the featured projects below to learn more.

" ["summary"]=> string(0) "" ["format"]=> string(13) "filtered_html" ["safe_value"]=> string(430) "

What happens when your engineer can FACILITATE a conversation?
As the floors of a structure build upon each other, so do ideas within teams. PCS engineers facilitate discussions to power the fast flow of ideas, pulling concepts, pushing details, addressing upcoming concerns and thinking big on every floor of the building process.
Click the featured projects below to learn more.

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High Fidelity Discourse
Connected Teams. Bold Solutions.
Northwest Airplane Hangar
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Far from a utilitarian industrial structure, this private airplane hangar combines functionality and cutting edge design.  The attention to detail in the exposed structural frame emphasizes bold design of this 35,000 sf building.  Soaring cantilevers and expansive use of glazing lend a dynamic element to what is normally a building with limited expression.  The 2030 Building Challenge was accomplished by delivering a facility that is approximately 80% more efficient than the 2009 IECC requirements for metal buildings.

 

Photos: Benjamin Benschneider
 

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Photos: Benjamin Benschneider
 

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Photos: Benjamin Benschneider
 

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Photos: Benjamin Benschneider
 

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Northwest Airplane Hangar
Pacific Northwest
Wildcat Minerals
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Illustrated above are decade snapshots that highlight six chapters of the 50+ Year PCS story. Building on over 50 years of experience delivering structural solutions to our clients across the Pacific Northwest and beyond, present-day PCS Structural Solutions continues to grow and set our sights on a bright future. As you click through the images above, you will see snapshots of our history over the decades. We have marked only a handful of the projects, partners, and milestones that shaped the growth and development of our firm - the complete narrative includes our entire staff, great clients and industry partners who have shared in moments of the first 50 years.  

 
Our first decade as a firm: In 1965, Ray Chalker and Skip Bush established Chalker Engineers – the same year the Beatles released four new albums including “Help”, gas was 31 cents a gallon, and an attempt to move the Cleveland Indians to Seattle fell apart.

 

In the early 1980's, Chalker Engineers (known today as PCS Structural Solutions) designed a network of glulam arching trusses to span further than ever before and incorporated pre-cast concrete hollow core planks to shave time off construction schedules.  At the same time, big hair and neon dominated fashion, the average cost of a new home was $82200, and Bill Gates was hired by IBM to create an operating system for a new PC.

 

2nd generation of leadership: in 1987, Dan Putnam, Jim Collins, and Don Scott took over the reins as firm leaders with the support of their associates depicted above (left to right) Aaron Goodwin, Gary Beckner, Rick Oehmcke, and Jack Pinkard.  1987 was also the year that Bon Jovi was topping the charts with his smash hit "Livin' on a Prayer", the cost of Superbowl ad was $600,000, and the Seattle Seahawks signed "The Boz", Brian Bosworth, to the biggest rookie contract in NFL history.

 

Our 4th decade as a firm began with key projects that marked the revitalization of downtown Tacoma, the growth of our Seattle office, and ended with PCS championing and embracing the soon to be BIM revolution.  The turn of the century also brought us reality TV (50 million viewers watched the first season finale of Survivor), oil topped $30/barrel for the first time, and banking software that used (4) digits to represent the year.

 

Celebrating our 5th decade: In 2007, after collaborating with Dan, Jim & Don on a legacy rebranding campaign, Brian Phair and Craig Stauffer transitioned into CEO and President of PCS Structural Solutions - ushering in a new era of 3D design tools and pushing a culture of enhanced collaboration. 

 

Looking ahead from 2016 and beyond to the next 50 years, we eagerly look forward to future decades and the stories and relationships they will bring. The opening of our new Portland office and expansion of our Seattle space will enable us to continue working as one unified firm with national reach and a singular passion.

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Illustrated above are decade snapshots that highlight six chapters of the 50+ Year PCS story. Building on over 50 years of experience delivering structural solutions to our clients across the Pacific Northwest and beyond, present-day PCS Structural Solutions continues to grow and set our sights on a bright future. As you click through the images above, you will see snapshots of our history over the decades. We have marked only a handful of the projects, partners, and milestones that shaped the growth and development of our firm - the complete narrative includes our entire staff, great clients and industry partners who have shared in moments of the first 50 years.  

 
Our first decade as a firm: In 1965, Ray Chalker and Skip Bush established Chalker Engineers – the same year the Beatles released four new albums including “Help”, gas was 31 cents a gallon, and an attempt to move the Cleveland Indians to Seattle fell apart.

 

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2nd generation of leadership: in 1987, Dan Putnam, Jim Collins, and Don Scott took over the reins as firm leaders with the support of their associates depicted above (left to right) Aaron Goodwin, Gary Beckner, Rick Oehmcke, and Jack Pinkard.  1987 was also the year that Bon Jovi was topping the charts with his smash hit "Livin' on a Prayer", the cost of Superbowl ad was $600,000, and the Seattle Seahawks signed "The Boz", Brian Bosworth, to the biggest rookie contract in NFL history.

 

Our 4th decade as a firm began with key projects that marked the revitalization of downtown Tacoma, the growth of our Seattle office, and ended with PCS championing and embracing the soon to be BIM revolution.  The turn of the century also brought us reality TV (50 million viewers watched the first season finale of Survivor), oil topped $30/barrel for the first time, and banking software that used (4) digits to represent the year.

 

Celebrating our 5th decade: In 2007, after collaborating with Dan, Jim & Don on a legacy rebranding campaign, Brian Phair and Craig Stauffer transitioned into CEO and President of PCS Structural Solutions - ushering in a new era of 3D design tools and pushing a culture of enhanced collaboration. 

 

Looking ahead from 2016 and beyond to the next 50 years, we eagerly look forward to future decades and the stories and relationships they will bring. The opening of our new Portland office and expansion of our Seattle space will enable us to continue working as one unified firm with national reach and a singular passion.

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Illustrated above are decade snapshots that highlight six chapters of the 50+ Year PCS story. Building on over 50 years of experience delivering structural solutions to our clients across the Pacific Northwest and beyond, present-day PCS Structural Solutions continues to grow and set our sights on a bright future. As you click through the images above, you will see snapshots of our history over the decades. We have marked only a handful of the projects, partners, and milestones that shaped the growth and development of our firm - the complete narrative includes our entire staff, great clients and industry partners who have shared in moments of the first 50 years.  

 
Our first decade as a firm: In 1965, Ray Chalker and Skip Bush established Chalker Engineers – the same year the Beatles released four new albums including “Help”, gas was 31 cents a gallon, and an attempt to move the Cleveland Indians to Seattle fell apart.

 

In the early 1980's, Chalker Engineers (known today as PCS Structural Solutions) designed a network of glulam arching trusses to span further than ever before and incorporated pre-cast concrete hollow core planks to shave time off construction schedules.  At the same time, big hair and neon dominated fashion, the average cost of a new home was $82200, and Bill Gates was hired by IBM to create an operating system for a new PC.

 

2nd generation of leadership: in 1987, Dan Putnam, Jim Collins, and Don Scott took over the reins as firm leaders with the support of their associates depicted above (left to right) Aaron Goodwin, Gary Beckner, Rick Oehmcke, and Jack Pinkard.  1987 was also the year that Bon Jovi was topping the charts with his smash hit "Livin' on a Prayer", the cost of Superbowl ad was $600,000, and the Seattle Seahawks signed "The Boz", Brian Bosworth, to the biggest rookie contract in NFL history.

 

Our 4th decade as a firm began with key projects that marked the revitalization of downtown Tacoma, the growth of our Seattle office, and ended with PCS championing and embracing the soon to be BIM revolution.  The turn of the century also brought us reality TV (50 million viewers watched the first season finale of Survivor), oil topped $30/barrel for the first time, and banking software that used (4) digits to represent the year.

 

Celebrating our 5th decade: In 2007, after collaborating with Dan, Jim & Don on a legacy rebranding campaign, Brian Phair and Craig Stauffer transitioned into CEO and President of PCS Structural Solutions - ushering in a new era of 3D design tools and pushing a culture of enhanced collaboration. 

 

Looking ahead from 2016 and beyond to the next 50 years, we eagerly look forward to future decades and the stories and relationships they will bring. The opening of our new Portland office and expansion of our Seattle space will enable us to continue working as one unified firm with national reach and a singular passion.

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Illustrated above are decade snapshots that highlight six chapters of the 50+ Year PCS story. Building on over 50 years of experience delivering structural solutions to our clients across the Pacific Northwest and beyond, present-day PCS Structural Solutions continues to grow and set our sights on a bright future. As you click through the images above, you will see snapshots of our history over the decades. We have marked only a handful of the projects, partners, and milestones that shaped the growth and development of our firm - the complete narrative includes our entire staff, great clients and industry partners who have shared in moments of the first 50 years.  

 
Our first decade as a firm: In 1965, Ray Chalker and Skip Bush established Chalker Engineers – the same year the Beatles released four new albums including “Help”, gas was 31 cents a gallon, and an attempt to move the Cleveland Indians to Seattle fell apart.

 

In the early 1980's, Chalker Engineers (known today as PCS Structural Solutions) designed a network of glulam arching trusses to span further than ever before and incorporated pre-cast concrete hollow core planks to shave time off construction schedules.  At the same time, big hair and neon dominated fashion, the average cost of a new home was $82200, and Bill Gates was hired by IBM to create an operating system for a new PC.

 

2nd generation of leadership: in 1987, Dan Putnam, Jim Collins, and Don Scott took over the reins as firm leaders with the support of their associates depicted above (left to right) Aaron Goodwin, Gary Beckner, Rick Oehmcke, and Jack Pinkard.  1987 was also the year that Bon Jovi was topping the charts with his smash hit "Livin' on a Prayer", the cost of Superbowl ad was $600,000, and the Seattle Seahawks signed "The Boz", Brian Bosworth, to the biggest rookie contract in NFL history.

 

Our 4th decade as a firm began with key projects that marked the revitalization of downtown Tacoma, the growth of our Seattle office, and ended with PCS championing and embracing the soon to be BIM revolution.  The turn of the century also brought us reality TV (50 million viewers watched the first season finale of Survivor), oil topped $30/barrel for the first time, and banking software that used (4) digits to represent the year.

 

Celebrating our 5th decade: In 2007, after collaborating with Dan, Jim & Don on a legacy rebranding campaign, Brian Phair and Craig Stauffer transitioned into CEO and President of PCS Structural Solutions - ushering in a new era of 3D design tools and pushing a culture of enhanced collaboration. 

 

Looking ahead from 2016 and beyond to the next 50 years, we eagerly look forward to future decades and the stories and relationships they will bring. The opening of our new Portland office and expansion of our Seattle space will enable us to continue working as one unified firm with national reach and a singular passion.

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In the aftermath of a major earthquake, it’s crucial that hospitals remain fully operational. How did PCS improve seismic resilience at the Central Utility Plant (CUP) at MultiCare Tacoma General Hospital?

Our task was to make sure the hospital could keep running during and after a seismic event. Like many hospitals, Tacoma General runs on hydraulic power produced by the CUP. Many steam lines begin and end at the CUP, so they were an Achilles heel for the hospital: if the lines broke during an earthquake, then the hospital would effectively shut down. We had to seismically anchor the piping so it would stay in place and continue to function after an earthquake.

 

What was challenging about this particular project?

Our engineers needed an accurate model of the space to determine the best locations to place the seismic anchors, but the piping was so complex and densely interwoven that it simply wasn’t possible to use traditional as-built methods to determine the existing piping layout.

 

What bold solution did you use to solve this problem?

We used point cloud scanning to create an accurate 3D visualization of the space, then generated our Revit model based on the scans.

 

How does point cloud scanning work?

A 3D scanner on a tripod uses laser beams to record the X, Y, and Z-coordinates of millions of points on surfaces that the scanner can “see” from its vantage point. All those points are then assembled to create a fuzzy 3D image of the space.

 

What other challenges did the project team overcome?

The scanner’s lasers can’t record anything beyond the first object they hit – so the pipes behind the ones in front will only be recorded in bits and pieces where the lasers can “see through” gaps in the array. Our Revit model had to show every pipe flowing continuously through the space, not just the incomplete segments from the scan. Our process was a bit like a Sudoku puzzle in 3D: model the obvious pieces captured by the scan first in small chunks, then piece them all together and use deduction to fill in the gaps of missing pipe. I wrote some custom software especially for this project that helped streamline that process.

 

What did you take away from this project?

How invaluable point cloud scanning can be! The point cloud gave us a way to “see” the site from many angles with perfect accuracy while we modeled it, reducing mistakes in the modeling process and allowing for smoother and less disruptive installation of the seismic anchorage. With our Revit model, the engineers were able to design anchors to secure the piping—ensuring Tacoma General Hospital will keep on running regardless of rain, shine, or earthquakes.

 

 

Sage Cowsert is a Senior BIM Technician with more than 20 years of experience at PCS. Sage is a valued resource for his coworkers as well as his clients; with an eye for streamlining everyday processes and complex modeling challenges, he frequently builds custom programs that boost efficiency firm-wide.

 

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In the aftermath of a major earthquake, it’s crucial that hospitals remain fully operational. How did PCS improve seismic resilience at the Central Utility Plant (CUP) at MultiCare Tacoma General Hospital?
Our task was to make sure the hospital could keep running during and after a seismic event. Like many hospitals, Tacoma General runs on hydraulic power produced by the CUP. Many steam lines begin and end at the CUP, so they were an Achilles heel for the hospital: if the lines broke during an earthquake, then the hospital would effectively shut down. We had to seismically anchor the piping so it would stay in place and continue to function after an earthquake.
 
What was challenging about this particular project?
Our engineers needed an accurate model of the space to determine the best locations to place the seismic anchors, but the piping was so complex and densely interwoven that it simply wasn’t possible to use traditional as-built methods to determine the existing piping layout.
 
What bold solution did you use to solve this problem?
We used point cloud scanning to create an accurate 3D visualization of the space, then generated our Revit model based on the scans.
 
How does point cloud scanning work?
A 3D scanner on a tripod uses laser beams to record the X, Y, and Z-coordinates of millions of points on surfaces that the scanner can “see” from its vantage point. All those points are then assembled to create a fuzzy 3D image of the space.
 
What other challenges did the project team overcome?
The scanner’s lasers can’t record anything beyond the first object they hit – so the pipes behind the ones in front will only be recorded in bits and pieces where the lasers can “see through” gaps in the array. Our Revit model had to show every pipe flowing continuously through the space, not just the incomplete segments from the scan. Our process was a bit like a Sudoku puzzle in 3D: model the obvious pieces captured by the scan first in small chunks, then piece them all together and use deduction to fill in the gaps of missing pipe. I wrote some custom software especially for this project that helped streamline that process.
 
What did you take away from this project?
How invaluable point cloud scanning can be! The point cloud gave us a way to “see” the site from many angles with perfect accuracy while we modeled it, reducing mistakes in the modeling process and allowing for smoother and less disruptive installation of the seismic anchorage. With our Revit model, the engineers were able to design anchors to secure the piping—ensuring Tacoma General Hospital will keep on running regardless of rain, shine, or earthquakes.
 
 
Sage Cowsert is a Senior BIM Technician with more than 20 years of experience at PCS. Sage is a valued resource for his coworkers as well as his clients; with an eye for streamlining everyday processes and complex modeling challenges, he frequently builds custom programs that boost efficiency firm-wide.
 

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In the aftermath of a major earthquake, it’s crucial that hospitals remain fully operational. How did PCS improve seismic resilience at the Central Utility Plant (CUP) at MultiCare Tacoma General Hospital?

Our task was to make sure the hospital could keep running during and after a seismic event. Like many hospitals, Tacoma General runs on hydraulic power produced by the CUP. Many steam lines begin and end at the CUP, so they were an Achilles heel for the hospital: if the lines broke during an earthquake, then the hospital would effectively shut down. We had to seismically anchor the piping so it would stay in place and continue to function after an earthquake.

 

What was challenging about this particular project?

Our engineers needed an accurate model of the space to determine the best locations to place the seismic anchors, but the piping was so complex and densely interwoven that it simply wasn’t possible to use traditional as-built methods to determine the existing piping layout.

 

What bold solution did you use to solve this problem?

We used point cloud scanning to create an accurate 3D visualization of the space, then generated our Revit model based on the scans.

 

How does point cloud scanning work?

A 3D scanner on a tripod uses laser beams to record the X, Y, and Z-coordinates of millions of points on surfaces that the scanner can “see” from its vantage point. All those points are then assembled to create a fuzzy 3D image of the space.

 

What other challenges did the project team overcome?

The scanner’s lasers can’t record anything beyond the first object they hit – so the pipes behind the ones in front will only be recorded in bits and pieces where the lasers can “see through” gaps in the array. Our Revit model had to show every pipe flowing continuously through the space, not just the incomplete segments from the scan. Our process was a bit like a Sudoku puzzle in 3D: model the obvious pieces captured by the scan first in small chunks, then piece them all together and use deduction to fill in the gaps of missing pipe. I wrote some custom software especially for this project that helped streamline that process.

 

What did you take away from this project?

How invaluable point cloud scanning can be! The point cloud gave us a way to “see” the site from many angles with perfect accuracy while we modeled it, reducing mistakes in the modeling process and allowing for smoother and less disruptive installation of the seismic anchorage. With our Revit model, the engineers were able to design anchors to secure the piping—ensuring Tacoma General Hospital will keep on running regardless of rain, shine, or earthquakes.

 

 

Sage Cowsert is a Senior BIM Technician with more than 20 years of experience at PCS. Sage is a valued resource for his coworkers as well as his clients; with an eye for streamlining everyday processes and complex modeling challenges, he frequently builds custom programs that boost efficiency firm-wide.

 

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In the aftermath of a major earthquake, it’s crucial that hospitals remain fully operational. How did PCS improve seismic resilience at the Central Utility Plant (CUP) at MultiCare Tacoma General Hospital?
Our task was to make sure the hospital could keep running during and after a seismic event. Like many hospitals, Tacoma General runs on hydraulic power produced by the CUP. Many steam lines begin and end at the CUP, so they were an Achilles heel for the hospital: if the lines broke during an earthquake, then the hospital would effectively shut down. We had to seismically anchor the piping so it would stay in place and continue to function after an earthquake.
 
What was challenging about this particular project?
Our engineers needed an accurate model of the space to determine the best locations to place the seismic anchors, but the piping was so complex and densely interwoven that it simply wasn’t possible to use traditional as-built methods to determine the existing piping layout.
 
What bold solution did you use to solve this problem?
We used point cloud scanning to create an accurate 3D visualization of the space, then generated our Revit model based on the scans.
 
How does point cloud scanning work?
A 3D scanner on a tripod uses laser beams to record the X, Y, and Z-coordinates of millions of points on surfaces that the scanner can “see” from its vantage point. All those points are then assembled to create a fuzzy 3D image of the space.
 
What other challenges did the project team overcome?
The scanner’s lasers can’t record anything beyond the first object they hit – so the pipes behind the ones in front will only be recorded in bits and pieces where the lasers can “see through” gaps in the array. Our Revit model had to show every pipe flowing continuously through the space, not just the incomplete segments from the scan. Our process was a bit like a Sudoku puzzle in 3D: model the obvious pieces captured by the scan first in small chunks, then piece them all together and use deduction to fill in the gaps of missing pipe. I wrote some custom software especially for this project that helped streamline that process.
 
What did you take away from this project?
How invaluable point cloud scanning can be! The point cloud gave us a way to “see” the site from many angles with perfect accuracy while we modeled it, reducing mistakes in the modeling process and allowing for smoother and less disruptive installation of the seismic anchorage. With our Revit model, the engineers were able to design anchors to secure the piping—ensuring Tacoma General Hospital will keep on running regardless of rain, shine, or earthquakes.
 
 
Sage Cowsert is a Senior BIM Technician with more than 20 years of experience at PCS. Sage is a valued resource for his coworkers as well as his clients; with an eye for streamlining everyday processes and complex modeling challenges, he frequently builds custom programs that boost efficiency firm-wide.
 

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The Northwest Airplane Hangar is an elegant structure. What was challenging about the design and construction process on this project?

The hangar featured very high-end architecture with a lot of unique features incorporated into the building skin. In order to accomplish those details, a lot of secondary structure was necessary. A typical façade might be metal stud infill with metal panels, but this design required several framed-out openings. We helped the entire design team realize very early-on just how much steel this secondary structure would require—truck loads.

 

How did you connect with the design team to address this issue?

The contractor was brought on-board shortly after schematic design, so they needed to establish a budget in short order to keep things moving. The amount of secondary steel needed would critically affect the budget, so we decided to model those building elements much earlier than usual to help us all visualize the structure.

 

What did that process look like?

First, we modeled the project and created a 3D rendering compatible with VR, so you could get a feeling for standing in the hangar and seeing the structures as you looked around. Second, we also created a much simpler, more portable visual, which was a 2D isometric model of the building. Ordinarily, figuring out all of that secondary steel would happen much later in design, but we worked with our BIM technicians to communicate the rough magnitude of how much was needed.

 

How did the model help the design team communicate better?

The team’s concern was that contractors would base their bid on the exterior skin shown in the architectural renderings, without realizing the amount of secondary steel needed. If you don’t come up with that cost up front, you’ll probably have to sacrifice something else later. So, we created this intuitive, quick visual to help everyone get on board right away. We cut our picture of the building in half to show two different perspectives, and we modeled the secondary steel beams in red so they vividly stood out.

 

How did the team react to the models?

They were really excited to get it so early, commenting, “Wow, our structural engineers are already model rendering? That’s really forward!” By creating this easy-to-understand visual, we got all the disciplines coordinating earlier and deeper.

 

What did you take away from this project?

At the end of the day your most effective solution isn’t always the fanciest, most high-tech one. We produced a 2D image of a 3D object—a simple visual that instantly and efficiently portrayed the critical information and saved time for everyone. We used a simple tool to connect the entire design team and unite our understanding of the project.

 

 

Jason Collins has been with PCS since 2003. A Principal of the firm, his work encompasses a broad range of project types, including private development, healthcare, and residential projects featuring inventive structural design. Jason leverages his creativity and collaborative skills to brainstorm out-of-the-box solutions to design challenges.

 

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The Northwest Airplane Hangar is an elegant structure. What was challenging about the design and construction process on this project?
The hangar featured very high-end architecture with a lot of unique features incorporated into the building skin. In order to accomplish those details, a lot of secondary structure was necessary. A typical façade might be metal stud infill with metal panels, but this design required several framed-out openings. We helped the entire design team realize very early-on just how much steel this secondary structure would require—truck loads.
 
How did you connect with the design team to address this issue?
The contractor was brought on-board shortly after schematic design, so they needed to establish a budget in short order to keep things moving. The amount of secondary steel needed would critically affect the budget, so we decided to model those building elements much earlier than usual to help us all visualize the structure.
 
What did that process look like?
First, we modeled the project and created a 3D rendering compatible with VR, so you could get a feeling for standing in the hangar and seeing the structures as you looked around. Second, we also created a much simpler, more portable visual, which was a 2D isometric model of the building. Ordinarily, figuring out all of that secondary steel would happen much later in design, but we worked with our BIM technicians to communicate the rough magnitude of how much was needed.
 
How did the model help the design team communicate better?
The team’s concern was that contractors would base their bid on the exterior skin shown in the architectural renderings, without realizing the amount of secondary steel needed. If you don’t come up with that cost up front, you’ll probably have to sacrifice something else later. So, we created this intuitive, quick visual to help everyone get on board right away. We cut our picture of the building in half to show two different perspectives, and we modeled the secondary steel beams in red so they vividly stood out.
 
How did the team react to the models?
They were really excited to get it so early, commenting, “Wow, our structural engineers are already model rendering? That’s really forward!” By creating this easy-to-understand visual, we got all the disciplines coordinating earlier and deeper.
 
What did you take away from this project?
At the end of the day your most effective solution isn’t always the fanciest, most high-tech one. We produced a 2D image of a 3D object—a simple visual that instantly and efficiently portrayed the critical information and saved time for everyone. We used a simple tool to connect the entire design team and unite our understanding of the project.
 
 
Jason Collins has been with PCS since 2003. A Principal of the firm, his work encompasses a broad range of project types, including private development, healthcare, and residential projects featuring inventive structural design. Jason leverages his creativity and collaborative skills to brainstorm out-of-the-box solutions to design challenges.
 

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The Northwest Airplane Hangar is an elegant structure. What was challenging about the design and construction process on this project?

The hangar featured very high-end architecture with a lot of unique features incorporated into the building skin. In order to accomplish those details, a lot of secondary structure was necessary. A typical façade might be metal stud infill with metal panels, but this design required several framed-out openings. We helped the entire design team realize very early-on just how much steel this secondary structure would require—truck loads.

 

How did you connect with the design team to address this issue?

The contractor was brought on-board shortly after schematic design, so they needed to establish a budget in short order to keep things moving. The amount of secondary steel needed would critically affect the budget, so we decided to model those building elements much earlier than usual to help us all visualize the structure.

 

What did that process look like?

First, we modeled the project and created a 3D rendering compatible with VR, so you could get a feeling for standing in the hangar and seeing the structures as you looked around. Second, we also created a much simpler, more portable visual, which was a 2D isometric model of the building. Ordinarily, figuring out all of that secondary steel would happen much later in design, but we worked with our BIM technicians to communicate the rough magnitude of how much was needed.

 

How did the model help the design team communicate better?

The team’s concern was that contractors would base their bid on the exterior skin shown in the architectural renderings, without realizing the amount of secondary steel needed. If you don’t come up with that cost up front, you’ll probably have to sacrifice something else later. So, we created this intuitive, quick visual to help everyone get on board right away. We cut our picture of the building in half to show two different perspectives, and we modeled the secondary steel beams in red so they vividly stood out.

 

How did the team react to the models?

They were really excited to get it so early, commenting, “Wow, our structural engineers are already model rendering? That’s really forward!” By creating this easy-to-understand visual, we got all the disciplines coordinating earlier and deeper.

 

What did you take away from this project?

At the end of the day your most effective solution isn’t always the fanciest, most high-tech one. We produced a 2D image of a 3D object—a simple visual that instantly and efficiently portrayed the critical information and saved time for everyone. We used a simple tool to connect the entire design team and unite our understanding of the project.

 

 

Jason Collins has been with PCS since 2003. A Principal of the firm, his work encompasses a broad range of project types, including private development, healthcare, and residential projects featuring inventive structural design. Jason leverages his creativity and collaborative skills to brainstorm out-of-the-box solutions to design challenges.

 

" ["summary"]=> string(0) "" ["format"]=> string(13) "filtered_html" ["safe_value"]=> string(3366) "

The Northwest Airplane Hangar is an elegant structure. What was challenging about the design and construction process on this project?
The hangar featured very high-end architecture with a lot of unique features incorporated into the building skin. In order to accomplish those details, a lot of secondary structure was necessary. A typical façade might be metal stud infill with metal panels, but this design required several framed-out openings. We helped the entire design team realize very early-on just how much steel this secondary structure would require—truck loads.
 
How did you connect with the design team to address this issue?
The contractor was brought on-board shortly after schematic design, so they needed to establish a budget in short order to keep things moving. The amount of secondary steel needed would critically affect the budget, so we decided to model those building elements much earlier than usual to help us all visualize the structure.
 
What did that process look like?
First, we modeled the project and created a 3D rendering compatible with VR, so you could get a feeling for standing in the hangar and seeing the structures as you looked around. Second, we also created a much simpler, more portable visual, which was a 2D isometric model of the building. Ordinarily, figuring out all of that secondary steel would happen much later in design, but we worked with our BIM technicians to communicate the rough magnitude of how much was needed.
 
How did the model help the design team communicate better?
The team’s concern was that contractors would base their bid on the exterior skin shown in the architectural renderings, without realizing the amount of secondary steel needed. If you don’t come up with that cost up front, you’ll probably have to sacrifice something else later. So, we created this intuitive, quick visual to help everyone get on board right away. We cut our picture of the building in half to show two different perspectives, and we modeled the secondary steel beams in red so they vividly stood out.
 
How did the team react to the models?
They were really excited to get it so early, commenting, “Wow, our structural engineers are already model rendering? That’s really forward!” By creating this easy-to-understand visual, we got all the disciplines coordinating earlier and deeper.
 
What did you take away from this project?
At the end of the day your most effective solution isn’t always the fanciest, most high-tech one. We produced a 2D image of a 3D object—a simple visual that instantly and efficiently portrayed the critical information and saved time for everyone. We used a simple tool to connect the entire design team and unite our understanding of the project.
 
 
Jason Collins has been with PCS since 2003. A Principal of the firm, his work encompasses a broad range of project types, including private development, healthcare, and residential projects featuring inventive structural design. Jason leverages his creativity and collaborative skills to brainstorm out-of-the-box solutions to design challenges.
 

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Northwest Airplane Hangar
Pacific Northwest