Need fast, affordable covered space?
Shipping container covers promise quick shelter, no foundations and no building permits.
But are they really worth the cost?
Below, we’ll break down real prices, installation factors, and 10-year ROI so you can see if a container roof system beats renting or building.
Line-Item Cost Breakdown
Here’s a breakdown of typical costs in Canada for installing a container cover between two shipping containers .
A. Up-Front Costs
1) Roof kit (between two containers)
- Steel arch / straight-wall kits (engineered): typical mid-size kit listed around $24,869 (≈ 25′-wide × 40′ long, arch-style)
Fabric-membrane kits (PVC/PE):
- 20′ × 20′ PE starter shelter: $2,499.
- 30′ × 40′ dual-truss PVC: frequently $3,999–$4,999 depending on enclosure.
- 40′ × 40′ dual-truss PVC: often $10,999–$17,999 depending on fabric weight and end walls.
2) End walls, doors, and add-ons
- Front/Back end-wall kits for 30–40 ft spans often $1,699–$4,999 each, depending on height and model.
- Example: Back end wall kit for a 30′ series shelter currently $1,899.
3) Typical accessory allowances
- Mounting plates/fasteners: usually included with reputable kits (confirm in quote).
- Gutters/flashings, vents, lighting, insulation: budget $1–$3/ft² combined for basic packages (varies by spec and supplier guidance about engineered vs. “box” buildings).
B) Site Prep & Installation
1) Container condition & anchoring
- Containers must be level, aligned, and anchored. Minor steel fixes or leveling pads are common (quote-dependent).
2) Equipment rental
- Telehandler rentals often $650–$750/day in major markets.
- 45–60 ft boom lift typically $425–$560/day; towable 45 ft examples ~$330/day.
3) Labour
- Install labour varies by crew and complexity. Canada-wide wage data for construction workers/contractors shows ~$25–$47 median/hr, with specialized trades higher. Use $35–$65/hr as a planning band; union ironwork can exceed that.
Rule of thumb:
- Fabric dual-truss, 40′ × 40′: 2–4 techs × 1–2 days with telehandler/boom (experienced crew; add time for full end-walls).
- Steel arch kit (similar footprint): 3–5 techs × 2–4 days plus lift time for panels/arches (depends on supplier and site).
C) Operating Costs (Annual)
- Routine checks (tension, bolts, cleaning): $300–$800/yr for small/mid spans; more if coastal/snow-belt.
- Fabric recover: plan a recover cycle in the 10–15 year window for many membranes; cost depends on size and fabric spec (engineered membranes last longer and meet loads).
- Insurance: many buyers report fewer weather claims after covering inventory; confirm with your broker.
- Utilities: add only if you specify lighting/HVAC/ventilation.
D) End-of-Life / Resale
- De-install & move: container covers are relocatable; budget crew + lift time.
- Salvage value: steel arches/frames retain value; fabric can be replaced without scrapping the frame.
- Membrane-only refresh often extends life without full rebuild.
E) Sample 10-Year TCO (Canada) — 40′ × 40′ (~1,600 ft²)
| Option | Year-0 CapEx | Install & Equipment | Annual OpEx | 10-Year Total | Notes |
| Container cover (PVC dual-truss) | $10,999–$17,999 | $3,000–$6,000 (labour + lifts) | $600–$1,200 | $21k–$32k | Based on current 40′×40′ listings and typical lift/labour rates. |
| Container cover (steel arch) | ~$24,869 | $5,000–$9,000 | $500–$1,000 | $35k–$45k | Engineered arch kit example plus multi-day install. |
| Pre-engineered steel building | $60k–$100k | $10k–$20k | $1,500–$3,000 | $85k–$150k | Wide variance by foundation, envelope, and code upgrades. |
| Warehouse rental (overflow) | — | — | $3,000–$5,000/mo | $360k–$600k | Typical industrial rents & CAM in many markets; validate locally. |
Cost per ft²-year (illustrative):
- PVC cover: about $1.30–$2.00/ft²-yr over 10 years.
- Steel arch cover: about $2.20–$2.80/ft²-yr over 10 years.
- Warehouse: often $22–$38/ft²-yr all-in for comparable space (market-dependent).
Quick Takeaways for Canadian Buyers
- Fabric container covers deliver the lowest entry cost and fast installs; add end-walls if you need better weather control.
- Steel arch covers cost more up front but are engineered, durable, and code-friendly for snow/wind regions.
- Budget equipment rental and realistic labour; those two lines often swing the final number more than accessories.
Where the ROI Comes From
Here’s how you can justify the investment in a container roof system by looking at the real drivers of ROI: savings, speed, protection and flexibility.
A. CapEx Avoidance vs. Steel Buildings
By using the existing containers as side walls and installing a roof system, you avoid a large portion of the cost of a full steel building foundation and vertical walls.
For example: a container-cover is described as “an economical and reliable solution” because it uses shipping containers as structural base, reducing labour and material costs.
That means you’re often paying a fraction of what a traditional building would cost , that gap is where a lot of ROI lies.
B. Speed to Value
Because these systems are pre-engineered and rely on the containers already in place, the lead-time and installation are much shorter than full buildings.
The faster you can get the space operational (i.e., storing equipment, vehicles, materials), the sooner you start earning benefit rather than paying for nothing.
C. Protection Savings
Equipment, materials and inventory stored outdoors or under temporary cover face risks: weather exposure (UV, rain, snow, hail), corrosion, damage, theft. A container cover adds meaningfully to durability and protection. By reducing damage and downtime you save money and that can speed up payback.
D. Operational Flexibility
Unlike a permanent building, a container cover system can often be relocated or repurposed.
E. Space Cost Arbitrage
If your alternative is renting warehouse or covered space, the cost savings over time can be dramatic. Using rental cost as a comparator can highlight how quickly your investment pays back this becomes more pronounced in high-rent or constrained markets.
F. Compliance & Ratings
Choosing a properly engineered container cover (meeting snow load, wind load, code) reduces risk and potential surprise costs. This lowers the risk of failure, rework, insurance claims all of which contribute to ROI.
ROI Math You Can Replicate
Let’s walk through how you can plug numbers into a simple ROI formula for a container-cover system. This will help you evaluate if the investment makes sense for your site.
ROI Formula
ROI = (Annual Savings − Annual OpEx) ÷ Total Invested
Payback = Total Invested ÷ (Annual Savings − Annual OpEx)
These formulas give you both the return rate and how many years until your capital is recovered.
Scenario 1: Construction Contractor
Assumptions:
- Kit + install for a mid-sized cover : CapEx ~$35,000. (see earlier section)
- Avoided warehouse rental or material damage savings: ~$4,000/month = ~$48,000/year.
- Annual operating cost (OpEx): ~$1,200.
- Net Annual Benefit = $48,000 − $1,200 = $46,800.
Calculations:
- ROI = $46,800 ÷ $35,000 ≈ 133% per year.
- Payback = $35,000 ÷ $46,800 ≈ 0.75 years (≈ 9 months).
This means in under a year you’ve recouped your investment, after which it’s almost “profit”.
Scenario 2: Farm / Ag Storage
Assumptions:
- Kit + install for a smaller cover: CapEx ~$20,000.
- Savings from reduced spoilage/equipment weather-damage + off-season storage cost avoided: ~$10,000/year.
- Annual OpEx: ~$800.
- Net Annual Benefit = $10,000 − $800 = $9,200.
Calculations:
- ROI = $9,200 ÷ $20,000 = 46% per year.
- Payback = $20,000 ÷ $9,200 ≈ 2.17 years.
Here you recover your investment in about 2 years and earn healthy returns thereafter.
Side-by-Side Comparison: Container Cover vs. Steel Building vs. Warehouse Rental vs. Tarps
Here’s a clear table to compare the options. It helps you see at a glance the trade-offs and suitability for different needs.
| Criteria | Container Cover | Pre-Engineered Steel Building | Warehouse Rental | Heavy Tarps / Temporary Cover |
| CapEx | Lower (utilises containers) | Higher (full structure) | Essentially zero upfront for you (rent) | Very low upfront, but short-life |
| Time to Operational | Very fast setup in many cases | Moderate setup, foundation often required | Immediate (if space available) | Very fast, but lower protection |
| Mobility/Relocatability | High (cover + containers can move) | Moderate to low (foundation often fixed) | Low (lease bound) | Medium (tarps can be repositioned) |
| Lifespan | Moderate to long (frame durable, membrane may need repeat) | Long (20-30+ years typical) | Dependent on lease & condition | Short to moderate (tarps degrade) |
| Maintenance | Moderate (especially for membrane & drain issues) | Low to moderate (steel panels, foundation) | Varies widely | High (tarps need frequent replacement) |
| Wind/Snow Rating | Good if engineered, but membranes may limit load in some cases. (See myth-debunking of container covers vs extreme weather) | Very good (full building engineered) | Depends on building leased | Usually limited rating |
| Resale / Salvage Value | Good (containers + cover can be repurposed) | Fair to good | None (you’re renting) | Low |
| Typical Payback (for right use-case) | Short (2-5 years in many cases) | Moderate (5-10 yrs) | None (you keep paying rent) | Very short but limited utility |
| Best For | Fast coverage, relocatable use, moderate loads | Long-term investment, heavy use, insulation needed | Overflow or temporary space | Short-term cover only |
Common Objections & Evidence-Based Rebuttals
Here are frequent concerns buyers raise about installing a container cover along with well-sourced responses to help you handle them confidently.
Objection 1: “Fabric covers are cheaper — why not just use those?”
Rebuttal:
While fabric or membrane covers can seem cost-effective up front, they’re ultimately a short-term solution. Fabric is vulnerable to UV degradation, tearing, and stretching under snow or wind loads — even with regular maintenance.
By contrast, steel structures are engineered for decades of performance, maintaining their structural integrity and resale value over time. Galvanized or coated steel resists corrosion and can withstand heavy snow, high winds, and industrial wear far better than any membrane product.
Takeaway: If long lifespan, resale value, and structural reliability matter, steel delivers superior total value — not just a lower initial price tag.
Objection 2: “Permits will be a hassle / local loads too high.”
Rebuttal:
- Many container cover systems are explicitly “designed to offer unmatched … durability … weather resistance” including heavy rain, snow and strong winds.
- By using engineered steel framing or qualified vendor systems you can secure drawings for permitting and code compliance. The “Container Covers” product information page emphasises sizes, certifications, and local province support.
Takeaway: Yes, you should check-with local authority, but systems exist that meet typical Canadian snow/wind loads you aren’t left without options.
Objection 3: “DIY is cheaper but I’ll save more if I install it myself.”
Rebuttal:
- DIY might save labour cost, but risks include improper anchoring, missed load design, warranty voids, and future maintenance problems. The “Container Covers” provider notes that their kits are “pre-engineered … for your area” which mitigates risk.
- With a quality cover, the faster installation (by pros) can reduce downtime or lost productivity. That speed is part of the ROI.
Takeaway: If you’re highly experienced, DIY might make sense but for most users working in industrial/commercial context, professional install adds value and lowers risk.
Objection 4: “Our region has heavy snow/wind , a container cover won’t stand up.”
Rebuttal:
- Many container cover kits are explicitly marketed for harsh environments. One vendor says the product “is engineered to withstand heavy snow and wind loads.”
- The advantage: the containers serve as solid sidewalls/foundations; the roof system simply spans between them. This gives a robust base already in place.
Takeaway: As long as you specify correct snow/wind load design (which many vendors offer), you can use container covers even in demanding climates. Just be sure to match specs.
Implementation Guide (Mini)
Here’s a practical walkthrough to help your team implement a container-cover project smoothly from site checklist through installation steps and optional upgrades .
Site Checklist
- Verify the two existing containers are level, aligned, and properly spaced for the roof system.
- Check ground conditions: good drainage, stable pad or footings, no soft spots that will shift.
- Confirm your local permit/regulation status: e.g., in many Ontario municipalities any container-structure over 10 m² (~108 ft²) requires a building permit.
- Clear overhead and underground utilities; ensure safe lift equipment access.
- Define layout: container span width, roof height, end-wall openings, lighting/ventilation needs.
- Document site plan: property lines, setbacks, adjacent structures will help with permit submission.
Install Pathway: DIY vs. Professional
- DIY route: feasible for smaller/simple fabric-membrane covers where container base is already perfect, and you have competent crew and lift equipment. Example guide: 20′×40′ kit installs in ~8-10 hours with 2-5 people.
- Professional installer: recommended when using larger spans, steel-arch systems, or high local snow/wind loads. Ensures correct anchoring, warranty compliance, structural integrity.
- Typical crew/equipment for mid-sized steel arch: 3-5 technicians + telehandler/boom + 2-4 day timeline confirm vendor details.
- Safety notes: anchoring of containers is critical; ensure that containers themselves are fit for structural roof loads; inspect for rust/weakness.
Upgrade Options & Add-Ons
- Insulation: if you’ll heat the space or need climate control, plan for insulation under the roof or side-walls.
- Doors/End Walls: choose open-ended, one end-wall, or full enclosure depending on usage (materials, fleet bay, storage).
- Lighting / Ventilation: For operational use (maintenance bays, workshops) specify lighting, HVAC or exhaust vents.
- Gutters & Drainage: Especially in Canadian climates, plan for snow melt and water run-off so your container tops and roof connections stay dry.
- Security / Access Control: If storing valuable equipment, implement roll-up/slide doors, lockable access, CCTV if needed.
Pricing Transparency
Bullet Estimates by Common Configurations
- 20′ × 20′ fabric-membrane container cover kit: $2,500–4,000 (kit only)
- 30′ × 40′ fabric dual-truss cover: $8,000–12,000 (kit only)
- 40′ × 40′ steel‐arch container cover kit: $24,000–30,000 (kit only)
- Add-ons (end walls, doors, gutters, insulation): + $1–3/ft² typical depending on spec
- Installation & equipment (lift rental, labour) for mid-size: budget $3,000–6,000+
Financing & Leasing Options
- Lease-to-own plans over 24-48 months offered.
- Vendor financing available through Metal Pro’s financing program.
- Package cost may be treated as a site-improvement asset to smooth budgeting.
- Payback and ROI (as shown earlier) highlight how quickly the cover investment often recovers.
Next Steps with Metal Pro Buildings
- Get Your Custom Quote,Fast & Transparent
Send us your container dimensions, location, and snow/wind zone.
Within 24 hours, our engineering team will return a fixed quote including drawings, specs, and delivery estimate.
Closing: The Bottom Line on “Worth It”
Here’s what you need to remember: if you’re using your site, equipment or materials in a way that a covered space would protect and accelerate your operations, then a container-cover system is often very much worth it.
Key takeaway
By choosing a cover mounted between existing containers (instead of building from scratch or leasing space), you’re tapping into:
- Lower upfront cost, because you’re leveraging container side-walls.
- Faster installation → faster benefit realization (less downtime, fewer weather losses).
- Flexibility: many systems allow relocation or re-use, which means fewer sunk costs.
When it works best
- You already have containers or easily can add them.
- You need covered space now and speed matters.
- You’re looking for a mid-term solution (3-10 years) rather than a fully permanent warehouse.
- You face real costs from exposure: damage, rental fees, weather delays.
When you might go another route
- Your usage is permanent, heavy duty, fully climate controlled, or you need full insulation and architectural finish.
- You need very high clear-span heights, heavy manufacturing loads, or full office space integration then a full steel building might serve you better.
- You don’t have containers and acquiring them adds significant cost or complexity.
Final word
For many industrial, agricultural, logistics or fleet operations, a well-engineered container-cover system delivers a lower total cost of ownership (TCO) and faster payback than renting or traditional buildings.
If you specify the right width/span, choose the right load rating, install properly, and maintain it, you’re likely to see real savings and real ROI over a 5-10 year horizon.
Next Step: If you’re focused on moving ahead, we recommend reaching out with our team. Request a fixed quote and site review to convert everything in this article into your real-world project numbers.
