Relocating a university research laboratory is one of the most logistically demanding moves in any industry. It is not simply a matter of boxing up instruments and rolling them down a hallway. A university lab move involves multi-million-dollar grant-funded equipment, irreplaceable biological samples, strict biosafety decontamination protocols, academic calendar constraints, the competing priorities of multiple principal investigators sharing the same space, and an institutional procurement process that can take months before a single piece of equipment is touched.
At CNS Logistics, we have completed more than 200 laboratory and medical relocations since 2018. Among those, we count verified institutional clients at both McGill University's Faculty of Medicine and Concordia University. Our team, led by Mr. Vermette with over 20 years of certified technical experience, understands the specific pressures that universities face when a lab must move between buildings, across campuses, or into entirely new facilities.
This guide is written for the people who actually plan and execute these moves: university facility managers, department administrators, procurement officers, principal investigators, and lab managers. Whether you are coordinating a single-PI chemistry lab relocation at UQAM or a phased multi-department move at the McGill downtown campus, this resource covers the timeline, the equipment handling protocols, the grant documentation requirements, and the campus-specific logistics you need to know.
Montreal is home to some of Canada's most research-intensive universities. McGill alone receives hundreds of millions in annual research funding. Concordia's research output has grown dramatically over the past decade. UQAM, Université de Montréal, Polytechnique, HEC, and ÉTS all maintain specialized research facilities that require expert handling when spaces are renovated, expanded, or consolidated. The demand for qualified laboratory and medical moving services in this city is significant and growing.
If you are planning a university lab relocation in Montreal for 2026 or beyond, this is the guide you need. And if you need a team that has already done this work for McGill and Concordia, get a free quote or call us directly at (514) 416-9610.
Why University Lab Moves Are Fundamentally Different
If you have ever managed a commercial office relocation, you might assume that a lab move follows a similar playbook with a few added precautions. That assumption is wrong. University lab relocations are a distinct category of move with unique constraints that do not exist in the private sector.
The Academic Calendar Dictates Everything
The single most important constraint in a university lab move is the academic calendar. Unlike a corporation that can schedule a move during any convenient quarter, a university must work around teaching semesters, examination periods, and the research cycles of graduate students and postdoctoral fellows. The practical window for most lab relocations is May through August, and even that window is compressed by the need to have labs fully operational before September orientation and the start of fall classes. Miss that window and you are looking at a partial move over winter break or a highly disruptive mid-semester operation.
Grant Equipment Is Not Your Equipment
A fundamental difference between university and private-sector equipment is ownership. In many cases, the instruments in a university lab were purchased with funds from NSERC, CIHR, FRQNT, CFI, or other granting agencies. That equipment does not belong to the principal investigator or the university. It belongs to the granting agency, and it comes with strict inventory, custody, and reporting requirements. Moving that equipment without proper documentation can create serious compliance problems.
Multi-PI Shared Labs Create Coordination Complexity
Modern university research facilities frequently house multiple principal investigators in the same lab space. Each PI has their own research program, their own equipment, their own graduate students, and their own timeline. When that shared lab needs to relocate, you are not managing one move. You are managing three or four simultaneous moves with competing priorities, different levels of urgency, and occasionally conflicting schedules. Without a structured coordination plan, these moves become chaotic.
Institutional Procurement Is Slower
University procurement processes involve multiple levels of approval, competitive bidding requirements, and administrative timelines that simply do not exist in the private sector. A biotech company can select a mover and sign a contract in a week. A university department may need three to six months to complete the procurement process. This means planning must start much earlier than most people anticipate.
Building Access and Campus Security
University campuses are not standard commercial buildings. Access is controlled by campus security, key card systems, loading dock schedules, and sometimes union labour rules for certain types of work. Moving teams need to coordinate with facilities management well in advance to secure elevator access, loading dock time slots, parking for trucks, and after-hours building access. At some Montreal campuses, certain buildings have heritage designation that adds another layer of restriction.
Understanding these differences is the first step toward a successful university lab relocation. At CNS Logistics, our experience with institutional moving in Montreal means we have already navigated each of these challenges.
Academic Calendar Timing: The May-to-August Window
The academic calendar is not a suggestion. It is a hard constraint. Here is how experienced lab move planners work within it.
The Ideal Timeline
The target execution window for most university lab moves in Montreal is May through August. This period aligns with the gap between the end of winter-semester classes and the start of fall-semester orientation. Most graduate students are either on summer research schedules (which offer more flexibility) or between academic terms.
To execute a move in this window, planning should begin at least six months in advance, and ideally nine to twelve months for large or multi-department relocations. That means if you are targeting a June 2026 move date, the planning process should have started in late 2025.
Months to Avoid
September is the worst possible time for a lab move. Classes have resumed, new graduate students are arriving, and the building is at peak occupancy. The disruption to teaching and research is maximum.
December is nearly as bad. Final examinations occupy the first two weeks. Holiday closures occupy the second two weeks. Staff availability is minimal, and building access may be restricted.
April presents its own problems. End-of-term grading, thesis defences, and grant reporting deadlines consume faculty attention. Trying to coordinate a move with PIs who are simultaneously reviewing 40 final exams is an exercise in frustration.
Year-Round Research Labs
Not all university labs follow the academic calendar. Clinical research labs, medical imaging facilities, and certain long-running experimental programs operate twelve months a year. For these facilities, a full-shutdown move during the summer window may not be feasible.
The solution is a phased relocation spread over multiple weekends. CNS has executed phased moves where equipment and workstations are relocated in stages, with each phase carefully planned to maintain partial lab operations throughout. This approach takes longer and costs more, but it avoids the catastrophic research downtime that a full shutdown would cause.
Coordination with Department Administration
The department administrator is often the most important person in a university lab move. They control the budget, manage the procurement process, coordinate with facilities management, and serve as the communication hub between PIs, the dean's office, and external contractors. Establishing a strong working relationship with the department administrator early in the process is critical.
CNS assigns a dedicated project coordinator for every university lab move. That coordinator works directly with the department administration to develop the timeline, secure building access, and manage the communication flow. This is not a standard commercial moving approach; it is purpose-built for the institutional environment.
Grant-Funded Equipment: Tracking, Documentation, and Compliance
If there is one area where university lab moves differ most sharply from any other type of relocation, it is the handling of grant-funded equipment. This section is essential reading for any PI or department administrator overseeing a move.
Understanding Equipment Ownership
When a principal investigator receives a grant from NSERC, CIHR, FRQNT, or CFI, and uses those funds to purchase a mass spectrometer, an NMR system, a flow cytometer, or any other major instrument, that equipment is not the PI's property. It is not the university's property. It belongs to the granting agency, and it is held by the university under specific terms that include inventory tracking and condition reporting.
This means that when grant-funded equipment is relocated, there must be a clear, documented chain of custody. The granting agency needs to be able to verify, at any point, where that equipment is, what condition it is in, and who is responsible for it.
What CNS Provides
CNS Logistics maintains a detailed chain-of-custody documentation system for every piece of grant-funded equipment we relocate. This includes:
Pre-move documentation. Every instrument is photographed, serial numbers are recorded, and a condition report is completed before anything is disconnected or packed. This report includes the equipment's current location, the grant number under which it was purchased, and the PI responsible.
In-transit tracking. All equipment is GPS-tracked during transport using our AI and GPS technology. Real-time location data is available throughout the move.
Post-move verification. Upon arrival at the new location, each instrument is checked against the pre-move documentation. Serial numbers are re-verified, condition is assessed, and a post-move report is generated.
Compliance-ready reports. The complete documentation package, including photographs, serial numbers, condition assessments, and location records, is formatted for grant reporting requirements. PIs can include this documentation directly in their annual grant reports to NSERC, CIHR, FRQNT, or CFI.
This level of documentation is not optional for university lab moves. It is a compliance requirement. And it is a core part of what CNS delivers for every laboratory and medical moving engagement.
Serial Number and Asset Tag Reconciliation
Many universities maintain their own internal asset management systems. Equipment purchased with grant funds is tagged with both university asset numbers and grant-specific identifiers. During a lab move, these tags must be preserved, and the equipment's new location must be updated in the university's asset management database.
CNS works with the university's asset management office to ensure that all location records are updated accurately following the move. This coordination prevents the discrepancies that trigger audit findings.
Biosafety Cabinet Handling: Decontamination, Transport, and Recertification
Biosafety cabinets are among the most sensitive pieces of equipment in any university lab. They require specialized handling that goes far beyond what standard movers can provide.
Pre-Move Decontamination
Before a biosafety cabinet can be moved, it must be fully decontaminated. This is not a task for the moving crew. Decontamination must be performed by a qualified biosafety professional, typically coordinated through the university's Environmental Health and Safety (EH&S) office or institutional biosafety officer.
The decontamination protocol depends on the cabinet type and what it was used for. Formaldehyde gas decontamination is common for cabinets used in work with biological agents. The cabinet must be certified as decontaminated before CNS will handle it. We coordinate directly with the institution's biosafety officer to confirm decontamination status before the move date.
Transport Requirements
Biosafety cabinets must be transported upright only. Tilting or laying a cabinet on its side can damage the HEPA filters and compromise the cabinet's containment integrity. CNS uses air-ride suspension trucks and custom securing systems to keep cabinets vertical and vibration-isolated during transport.
For Class II Type A2 cabinets, which recirculate a portion of air to the room, the HEPA filters are particularly vulnerable to mechanical shock. These cabinets require extra cushioning and slower transport speeds.
For Class II Type B2 cabinets, which are hard-ducted to the building's exhaust system, the move involves disconnecting the cabinet from the exhaust ductwork, which must be done by a qualified HVAC technician. At the destination, the cabinet must be reconnected and the entire duct connection must be verified before the cabinet is recertified.
Post-Move Recertification
After a biosafety cabinet is relocated and installed in its new position, it must be recertified before it can be used. Recertification involves testing the HEPA filters, verifying airflow velocities, checking cabinet integrity, and confirming that the cabinet meets NSF/ANSI 49 standards.
CNS coordinates the scheduling of recertification with the university's preferred certification vendor. We ensure that the cabinet is properly positioned, levelled, and connected before the certifier arrives, so there are no delays in getting the lab back to operational status.
Multi-PI Lab Coordination: Managing Competing Priorities
Shared laboratory spaces are standard in modern university research facilities. When a shared lab needs to relocate, the coordination challenge multiplies with each additional principal investigator.
The Core Problem
Consider a typical scenario: a shared chemistry lab at McGill is being relocated from the Otto Maass Chemistry Building to a renovated space in the Wong Building. The lab is shared by three PIs: one runs a synthetic chemistry program with fume hoods and solvent storage, one operates analytical instrumentation including an HPLC and a mass spectrometer, and one maintains a computational chemistry workstation cluster. Each PI has graduate students who need bench space. Each has different equipment. Each has a different sense of urgency about the move.
Without a structured coordination plan, this move will devolve into competing demands, missed deadlines, and frustration.
How CNS Manages Multi-PI Moves
Separate inventory sections. Each PI's equipment, supplies, and samples are inventoried separately. Every item is tagged with the PI's name and grant number. This prevents the confusion that arises when equipment from multiple research groups is mixed together during packing and transport.
Individual PI meetings. Before the move, our project coordinator meets with each PI individually to understand their specific requirements, timelines, and concerns. Some PIs have equipment that cannot be shut down for more than 24 hours. Others have samples that require continuous cold-chain maintenance. These requirements are documented and incorporated into the move plan.
A single communication plan. While individual PI concerns are handled separately, overall move communications are centralized. CNS provides a single timeline, a single point of contact, and regular status updates that go to all PIs simultaneously. This prevents the information silos that cause conflict.
Conflict resolution protocols. When two PIs need the same loading dock slot, or when one PI's timeline conflicts with another's, the project coordinator works with the department administrator to resolve the conflict. Decisions are documented and communicated to all parties. This structured approach is what sets professional institutional moving in Montreal apart from general-purpose moving services.
Graduate Student Coordination
Graduate students are often the people most affected by a lab move. They lose access to their workspaces, their experiments may be interrupted, and they may be expected to help with packing. CNS works with each PI to establish clear expectations for graduate student involvement and to minimize the disruption to ongoing research.
Montreal Universities: Campus-Specific Logistics
Montreal is one of Canada's most university-dense cities. Each institution has its own campus layout, building infrastructure, and logistical challenges. Here is what we know from our experience serving these institutions.
McGill University — Verified Client
CNS Logistics has completed lab relocations for McGill University's Faculty of Medicine. We know this campus.
Downtown Campus. McGill's downtown campus sits in the heart of Montreal, bounded by Sherbrooke, University, Dr. Penfield, and McTavish. The campus is compact, hilly, and congested. Truck access is limited on most internal roads. Loading docks are shared between multiple buildings and must be booked well in advance through McGill Facilities Management.
The Strathcona Anatomy and Dentistry Building, the McIntyre Medical Building, the Wong Building, and the Bellini Life Sciences Complex all house significant research laboratories. Many of these buildings are older and have narrow corridors, small elevators, and limited staging areas. Moves in these buildings require careful advance measurement of equipment and doorways.
Macdonald Campus. Located in Sainte-Anne-de-Bellevue, the Macdonald Campus hosts McGill's Faculty of Agricultural and Environmental Sciences. The campus is more spread out and truck access is generally easier than downtown. However, some research facilities are in older agricultural buildings with non-standard floor loading capacities.
CNS's proximity as Ville Saint-Laurent movers gives us a geographic advantage for serving both McGill campuses.
Concordia University — Verified Client
CNS Logistics has completed work for Concordia University. We are familiar with both campuses.
Sir George Williams (SGW) Campus. Located in downtown Montreal along De Maisonneuve Boulevard, the SGW campus is heavily urban. The Hall Building, the Engineering, Computer Science and Visual Arts Integrated Complex (EV Building), and the Richard J. Fink Building all contain research laboratories. Parking is extremely limited. Loading dock access requires coordination with Concordia Facilities. The EV Building has modern infrastructure, while the Hall Building presents the typical challenges of older institutional construction.
Loyola Campus. Situated in Notre-Dame-de-Grace, the Loyola Campus houses Concordia's science departments. The Richard J. Renaud Science Complex is the primary research building. The campus layout provides better truck access than SGW, but some loading areas are shared with teaching operations.
UQAM
UQAM's main campus is distributed across several buildings in the Quartier Latin, centred around the Berri-UQAM metro station. The Complexe des sciences Pierre-Dansereau on Sherbrooke Street is the primary research facility. Building access is complicated by the campus's integration into the urban streetscape, with limited dedicated loading areas. UQAM's sciences faculty maintains laboratories in chemistry, biology, earth sciences, and environmental sciences.
Université de Montréal
UdeM's main campus sits on the north slope of Mount Royal. The campus is accessed primarily from Chemin de la Côte-des-Neiges and Édouard-Montpetit Boulevard. The Roger-Gaudry Building, the Complexe des sciences, and the MIL Campus (the recently opened science campus in Outremont) all house major research facilities.
The MIL Campus is particularly relevant for lab relocations because many departments have recently moved or are still moving into the new facilities. This campus was purpose-built with modern loading infrastructure, wider corridors, and freight elevators designed to accommodate large instruments.
Polytechnique Montréal
Adjacent to UdeM on the north slope of Mount Royal, Polytechnique Montréal maintains significant engineering research laboratories. Materials science, chemical engineering, biomedical engineering, and nuclear engineering labs all require specialized moving capabilities. Access to the main Polytechnique building is via Chemin de Polytechnique, with a dedicated loading dock.
ÉTS (École de technologie supérieure)
Located in the Griffintown neighbourhood near downtown Montreal, ÉTS has expanded significantly in recent years. The campus is relatively modern and accessible, with better truck access than most downtown institutions. ÉTS maintains research labs in mechanical engineering, electrical engineering, construction engineering, and software engineering.
HEC Montréal
While HEC Montréal is primarily a business school, its research facilities include data science labs, behavioural research labs, and technology innovation spaces. The Côte-Sainte-Catherine campus has standard institutional loading infrastructure.
For lab relocations at any Montreal university, CNS brings the experience of our Montreal movers team combined with our specialized laboratory protocols.
The University Lab Moving Process: 9 Steps
Based on our experience with more than 200 lab relocations, here is the process CNS follows for university lab moves. This process is adapted from our lab moving Montreal guide with specific additions for the academic environment.
Step 1: Initial Consultation and Procurement Alignment (6-12 Months Before)
The process begins with a site visit and consultation. For university clients, this step includes understanding the institution's procurement requirements, timeline expectations, and budget cycle. CNS provides the documentation needed for competitive bidding processes and works within the university's procurement framework.
Step 2: Academic Calendar Integration (6-9 Months Before)
The move date is aligned with the academic calendar. We work with the department administrator to identify the optimal window and to coordinate with other planned activities (construction, renovations, other departmental moves).
Step 3: Comprehensive Lab Inventory (4-6 Months Before)
Every piece of equipment is catalogued. For grant-funded items, the grant number, serial number, and asset tag are recorded. For shared multi-PI labs, the inventory is organized by PI. This inventory becomes the master document for the entire move.
Step 4: Risk Assessment and Special Requirements (3-4 Months Before)
Biosafety cabinets, cryogenic storage, chemical inventories, radioactive materials, and other hazardous items are identified. Decontamination schedules are established. Specialized transport requirements are documented. ESD-sensitive instruments are flagged for appropriate handling.
Step 5: Building Access and Logistics Coordination (2-3 Months Before)
Loading dock reservations, elevator access, parking permits, and after-hours access are arranged with campus facilities management. Path surveys are conducted to verify that all equipment can physically fit through doorways, corridors, and elevators at both origin and destination.
Step 6: Grant Documentation Package (1-2 Months Before)
Pre-move condition reports and photographs are completed for all grant-funded equipment. The documentation package is reviewed with the PI and department administrator before the move begins.
Step 7: Packing, Disconnection, and Preparation (1-2 Weeks Before)
Equipment is shut down according to manufacturer protocols. Samples are transferred to temporary storage or shipped separately. Chemicals are packed by a licensed hazmat team. Benches are cleared and packed. All items are labelled with destination information.
Step 8: Transport and Installation (Move Day)
Equipment is transported using GPS-tracked, air-ride suspension vehicles. Items are installed at the destination according to the pre-approved floor plan. Grant-funded equipment is verified against the inventory. Biosafety cabinets are positioned and levelled.
Step 9: Post-Move Verification and Commissioning (1-2 Weeks After)
Biosafety cabinets are recertified. Instruments are powered up and tested. Grant documentation is finalized with post-move condition reports. The department administrator receives a complete move report.
For a deeper dive into each of these steps, see our comprehensive lab moving Montreal guide and our guide on how to choose lab movers in Montreal.
ESD Protection for Research Instruments
Electrostatic discharge is a real and often underestimated threat to sensitive research instruments during relocation. A single ESD event can damage or destroy electronic components worth hundreds of thousands of dollars.
Why Montreal Makes This Worse
Montreal's winter climate creates ideal conditions for electrostatic buildup. Cold, dry air, combined with heated indoor environments, can drive relative humidity below 20%. At these humidity levels, a person walking across a carpeted floor can build up a static charge exceeding 20,000 volts. That charge, discharged into a sensitive instrument, can cause immediate failure or latent damage that manifests weeks or months later.
CNS ESD Protocols
Every research instrument move by CNS follows strict ESD prevention protocols:
Personnel grounding. All technicians wear ESD wrist straps connected to grounded points. ESD-safe footwear is standard.
ESD-safe packaging. Instruments are wrapped in anti-static materials. ESD-sensitive components are placed in shielded bags. Original manufacturer packaging is used whenever available.
Climate control during transport. Our trucks maintain stable temperature and humidity levels during transport. This is particularly important for moves during Montreal's dry winter months, when ambient humidity inside an uncontrolled truck can drop to dangerously low levels.
Grounded work surfaces. At both origin and destination, equipment is handled on grounded surfaces. Workstations are verified with ESD meters before instruments are placed.
$5 million coverage. All moves are backed by $5 million in comprehensive insurance coverage. For grant-funded equipment worth hundreds of thousands or millions of dollars, this coverage is not a luxury. It is a basic requirement.
These protocols are the same ones we use for pharmaceutical and biotech clients. For more details, see our biotech pharma lab moving guide.
Cryogenic and Cold-Chain Sample Management
University labs frequently maintain biological samples, cell lines, tissue specimens, and reagents that require continuous cold-chain maintenance. A break in the cold chain during a move can destroy years of research.
Liquid Nitrogen Dewars
Liquid nitrogen storage dewars must be handled with extreme care. They cannot be tilted, and they require continuous monitoring of nitrogen levels during transport. CNS uses insulated, upright-secured transport systems for dewars, with temperature monitoring throughout the move.
For labs that use large shared liquid nitrogen systems, the move plan must include a temporary nitrogen supply at the destination, as the permanent system may not be operational on move day.
Ultra-Low Temperature Freezers (-80°C)
ULT freezers must be kept upright during transport and require a power connection within a specific time frame after disconnection. CNS coordinates the timing of freezer disconnection and reconnection to minimize the temperature excursion. For moves lasting more than a few hours, temporary dry ice supplementation is provided.
Chemical Cold Storage
Temperature-sensitive reagents and chemicals are transported in validated cold-chain containers with continuous temperature logging. The logged data is included in the move documentation for quality assurance purposes.
Secure Storage for Phased University Moves
When a university lab relocation is phased over multiple weekends or when the destination space is not ready on schedule, secure storage becomes an essential part of the move plan.
CNS operates climate-controlled, access-restricted storage facilities that are suitable for laboratory equipment and research materials. Our storage facilities feature:
- 24/7 security monitoring
- Climate control for temperature-sensitive equipment
- Inventory tracking for all stored items
- Insurance coverage for stored equipment
- Access logging for chain-of-custody documentation
For university clients, storage is often needed when construction delays push back the availability of the destination lab. Rather than leaving equipment in corridors or temporary spaces where it is vulnerable to damage and theft, CNS provides professional storage that maintains the security and condition documentation required for grant compliance.
Long-Distance University Lab Moves
Some university lab relocations involve moves between cities. A PI transferring from a Montreal university to a position in Toronto, Vancouver, or elsewhere takes their grant-funded equipment with them. These long-distance moves add complexity in the form of multi-day transport, overnight storage, and inter-provincial regulatory requirements.
CNS handles long-distance lab moves across Canada, with the same chain-of-custody documentation and GPS tracking that we provide for local moves. For equipment crossing provincial borders, we ensure compliance with all applicable transport regulations.
Hospital and Clinical Research Facility Overlap
University-affiliated hospitals and clinical research facilities often fall under the same umbrella as university lab moves. McGill's affiliated hospitals (MUHC, Jewish General, Montreal General), UdeM's affiliated CHUM and CHU Sainte-Justine, and other institutional partnerships mean that a lab relocation may involve both university and hospital facilities.
CNS has experience with both environments. For more on clinical facility moves, see our hospital department moving guide.
Frequently Asked Questions
How far in advance should we start planning a university lab move?
For a standard single-lab relocation, begin planning six months in advance. For multi-lab or multi-department moves, start nine to twelve months ahead. University procurement processes alone can take two to three months, so factor that into your timeline.
Does CNS have experience with Montreal universities?
Yes. CNS Logistics has completed lab relocations for McGill University's Faculty of Medicine and Concordia University. We have also worked with other institutional clients across Montreal. Call us at (514) 416-9610 to discuss your project.
How do you handle grant-funded equipment?
Every piece of grant-funded equipment receives full chain-of-custody documentation, including pre-move and post-move condition reports, serial number verification, GPS tracking during transport, and a compliance-ready documentation package for NSERC, CIHR, FRQNT, or CFI reporting.
Can you move biosafety cabinets?
Yes. CNS transports biosafety cabinets upright on air-ride suspension vehicles. We coordinate decontamination with the institution's biosafety officer before the move and schedule recertification at the destination after installation.
What about radioactive materials?
CNS does not transport radioactive materials directly. However, we coordinate with the university's radiation safety officer and licensed radioactive material transport companies to ensure that these items are handled by qualified specialists as part of the overall move plan.
How do you manage moves for shared multi-PI labs?
Each PI's equipment is inventoried and tagged separately. Our project coordinator meets with each PI individually and maintains a centralized communication plan for the entire move. Scheduling conflicts are resolved through the department administrator.
What is your insurance coverage?
CNS carries $5 million in comprehensive insurance coverage. For high-value research instruments, we can arrange additional coverage as needed. Documentation of coverage is provided as part of the procurement process.
Can you do a phased move over multiple weekends?
Yes. For labs that cannot shut down completely, CNS executes phased relocations where equipment and workstations are moved in stages over multiple weekends. Each phase is planned to maintain partial lab operations throughout the process.
Planning Your University Lab Move with CNS Logistics
University lab relocations demand a level of precision, documentation, and institutional awareness that goes far beyond standard commercial moving. The grant compliance requirements, biosafety protocols, academic calendar constraints, and multi-stakeholder coordination make these moves among the most complex in the industry.
CNS Logistics has done this work. We have moved labs at McGill. We have moved labs at Concordia. We bring over 200 lab relocations of experience, $5 million in coverage, GPS-tracked transport, certified technicians led by Mr. Vermette, and a documentation system built for grant compliance.
If you are a facility manager, department administrator, procurement officer, or principal investigator planning a lab relocation at any Montreal university, we want to hear from you.
Get a free quote or call us at (514) 416-9610.
Learn more about why Montreal trusts CNS for laboratory and institutional moves.