S.B.G - CIG Warehouse Builds

 

S.B.G - CIG Warehouse Builds 

THE 30 DAY PROJECT 

A 3-6 month effort with materials that goes up in 30 days or less 

Lowest cost higher Sq Ft sizing & environmentally friendly zero emissions or close to with Co2 capture variables integrated 

CIG PRE-FAB WAREHOUSE

Pre-fab foundation - features

Steel frame - Stainless 

A composit poplar + hybrid wall structure woth exterior that can handle high winds 

Base leveling efforts 

Slab Box material 
Base material
Base Isolators - Shock Absorbers
In-ground deep anchors 

Tilt-Up Walls - features

Steel frame  - Stainless
Wall Panels material 

A foam filler & insulator effort utilized  

CENTER POINT 

The warehouse designs utilize a center point the steel or aluminum ruf (roof) beams are all interconnected to which acts as a shock Absorbers & energy grounding to foundation transfer effort for storms & EV electricity then as a support for seismic activity 

This is rare in traditional designs as they disclude an overall larger effort to adjust to moving & shaking ground then high winds 

Your rectangular or square exterior points centering to the center point into each foundation which is designed to move & shift then contract back into place in an event 

Steel cagged washroom or emergency rooms act as extra protection from hurricanes or tornado events for biological assets 

Designed for 8.0-10.0 Earthquakes & F5 Tornados + Hurricanes 

This effort works for parking & interior warehousing 

EXCESS MATERIAL SUPPLY 

Poplar

Copper 

AVOIDANCE 

Traditional concrete & materials which offer toxins or emissions in a Point A - B process 

PRE-FAB FAST CONSTRUCTION 

After the foundation is dug & prepped with in-ground deep anchors we then install slab box materials that click in place 

The exterior slab boxes have an extra side specification allowing tilt to walls to connect with steel structure for large angled steel or aluminum beams for the ruf (roof) then a click in slab box treatment is applied 

This speeds the process up to understand 30 days or under 15 days once the Base fou nation is prepped in under 30 or 15 days on a tested site after safe survey & excavation 

Within the pre-fab slab boxes inclides features for piping & connected climate Hvac integrated into the walls & ceiling 

An exterior finishing tilt-up wall with stucco for high winds or tornados & hurricanes woth a tagged effort cna be applied alongside ruf (roof)

EXTERIOR WALL SUPPORT 

Steel beam wall points are connected to in-ground deep anchors & designed woth a Triangle large- X exterior pattern integrated into a rodent run & effort on the exterior & interior which then offers a simulated real seismic & anti-flood effort 

The building is designed to shake, exhaust ventilated air & to move with wind before contracting back to normal 

SHIPPING & LOGISTICS 

Materials are manufactured in forms at a site then lifted onto a semi-truck & assembled on-sire clicked together with a lock in - snap in effort 

A simple click together effort in assembly speeds the process including steel or aluminum ruf (roofing) beams connecting to exterior walls 

REFERENCE 

Base Isolators - Shock Absorbers

https://youtu.be/j0o5gJUxAnY?si=_VDuGCH2_UmzY6YU

INCREASING YIELD & COST EQUIVLANCE 

Utilizing internal In-House & External construction materials & partners in an effort to drop overall costs down by 40-75% from traditional constructions while providing a fair yeild for skilled workers 

This drops costs on 2-10 Million Sq Ft builds down & with C/M Stationsty Energy additives with water filtration & efforts Energy costs are currently down to under 100,000 Sq Ft facility equivalence 

With this we can do a 3-6 story option & keep costs in-check long term & utilize space effectively & quickly. This offers vast open space for high Yeild multi-faceted fast grown & Block 11 accumulative production at one site

Most of our production can be done at one site at the standard large size for multiple concerns including a Block 11 assembly process 

TWO MILLION SQUARE FEET WAREHOUSE

You require at least 50 acres of land. 46 for warehouse & 4 acre barrier perimeter 

A 2 million square foot warehouse would require approximately 46 acres of land, assuming a typical floor area ratio (FAR) of 1.0. The actual acreage needed can vary based on local zoning regulations and the specific layout of the warehouse and surrounding areas. 

Here's a breakdown:

• 1 acre = 43,560 square feet 
• 2,000,000 sq ft / 43,560 sq ft/acre = 45.9 acres 

• A floor area ratio (FAR) of 1.0 means the building's footprint is equal to the lot size. If the FAR is lower, more land is needed. For example, a FAR of 0.5 would require twice the land area. 

• Factors like parking, loading docks, and landscaping can also increase the total land area needed.

TRADTIONAL COSTS 

Deduct 40-75% or more then add costs of land & land survey expenses 

$60 Million - $264 Million from $150 - $660 Million on 3-6 stories at 2 Million Sq Ft 

The cost to build a 2 million square foot warehouse can range from $150 million to over $660 million, depending on various factors like location, construction method, materials, and specific features. Factors such as land cost, construction materials, labor, and local regulations can significantly impact the final price. 

Here's a more detailed breakdown:

1. Construction Costs:

• Basic Construction (per square foot): Can range from $75 to $330, depending on the materials and method used. 

• Materials (per square foot):

• Steel buildings: $10 - $25 per sq ft. 

• Metal stud frame: $25 - $35 per sq ft.

• Tilt-up construction: $40 - $55 per sq ft. 

• Total Construction Cost (2 million sq ft): This could range from $150 million to $660 million (or more) depending on the above factors. 

2. Location:

• Urban vs. Rural:

Urban areas typically have higher land costs and stricter regulations, increasing the overall price. 

• Specific Cities:

Costs can vary significantly between cities like Toronto, New York, or even different regions within a country. 

3. Other Factors:

• Permits:

Expect fees of $7.50 - $15 per square foot for permits. 

• Site Preparation:

This includes grading, excavation, and foundation work, which can vary based on the site's condition. 

• Utilities:

Connecting to water, electricity, and other utilities adds to the overall cost. 

• Technology Integration:

Features like automation, advanced racking systems, and other technologies can increase costs. 

• Resilience and Sustainability:

Incorporating features for extreme weather events or energy efficiency will add to the cost. 

• Finishing:

Interior fit-out, including offices, restrooms, and other amenities, will also influence the final price. 

4. Additional Considerations:

• Land Costs: Land costs can vary widely depending on the location and size of the property. 

• Labor Costs: Labor costs can vary by region and the complexity of the project. 

• Permits and Fees: These can add significantly to the overall project cost. 

• Financing: Consider the cost of financing the project, including interest rates and loan fees. 

5. Example:

• A basic warehouse in a rural area using steel construction might cost around $200 per square foot, totaling $400 million for 2 million sq ft. 

• A more complex warehouse in an urban area with high-end finishes could cost $330 per square foot or more, totaling over $660 million for 2 million sq ft. 

It's best to consult with construction professionals in your specific location to get accurate cost estimates for your particular project.

Average budgets for a property of this size woth modern efforts & an empty interior are between $700 Million - $1.5 Billion unless property costs are more expensive yet woth these construction efforts to high strength standards costs drop significantly creating a equivalent effort so you can focus on interior materials & structure with equipment then safety practices for production 

Overall costs cna be as low as $95 Million (Canadian Dollars)

ONE OF OTHER PRODICTION YEILD EFFORT 

Poplar Trees. 500,000 grown in 46 acres indoor VS outdoor for production 

A plantation of 500,000 poplar trees would require a substantial amount of land, but the exact area depends on the spacing between trees. If trees are spaced 15 feet apart, they would need roughly 1,713 acres. If they are spaced 20 feet apart, they would need about 3,048 acres.

Here's a breakdown: 

• Spacing:
Poplar trees are typically planted 10-25 feet apart, depending on the specific type and purpose (windbreak, timber production, etc.).

• Acre Calculation:
One acre contains 43,560 square feet.

• Example 1 (15-foot spacing):

• Area per tree: 15 ft * 15 ft = 225 sq ft

• Trees per acre: 43,560 sq ft/acre / 225 sq ft/tree = 193.6 trees/acre (approximately 193 trees/acre)

• Total acres: 500,000 trees / 193 trees/acre = 2,590.67 acres (approximately 2,591 acres)

• Example 2 (20-foot spacing):

• Area per tree: 20 ft * 20 ft = 400 sq ft

• Trees per acre: 43,560 sq ft/acre / 400 sq ft/tree = 108.9 trees/acre (approximately 109 trees/acre)

• Total acres: 500,000 trees / 109 trees/acre = 4,587.16 acres (approximately 4,587 acres)

Therefore, the total land area needed for 500,000 poplar trees could range from roughly 2,591 acres to 4,587 acres, depending on the spacing.

Despite this average traditional effort S.B.G - CIG utilizes a different approach woth mimmal spacing leaving only inches then under 6-12" (under 1ft) between rows substantially "shrinking" space to increase yeild production of 500,000 or more fitting into under 2 Million Sq Ft 

This coupled with Aquaponics & Copper Crystal production then specifics added within a smart system connected to a Block 11 effect our Yield increase increases substantially per 6 - 12 months while natural & simulated light is utilized with a specific water filtration effort & material "replenishment" 

Growth in trunk width is 1-2.5" annually  so spreading 500,000 for production harvest within 1-5 years & or speeding up that process allows for the 46 acre effort with 5-8 ft in height per annum in growth  

Within 6 - 12 months yeilds paid for the warehouse & property plus a 10% plus profit voiding Reliance on a piggybacked from another investment & or mortgage which is why S.B.G - CIG  is expanding in owned properties globally in over 60 countries for a managed In-House grid spread for production separate from background & front end value based managed international investments 

HARVEST & FUSION SPLICING 

Ttadtional efforts in processing smaller sized trees for production discludes the S.B.G - CIG process in wood fusion & splicing to create aluminum & ply or chipwood if not composites from polar & speicifcs 

Despite harvesting outdoor is different than indoor or hybrids accumulative efforts

Harvesting small trees for wood production is a complex process involving planning, tree selection, and adherence to regulations. It can be done sustainably through various methods, including selective logging and diameter-limit cuts, which focus on removing specific trees based on size or other factors. In Ontario, regulations govern timber harvesting on Crown land, requiring proper authorization and adherence to approved forest management plans. 

Key aspects of harvesting small trees:

• Planning:

Strategic, tactical, and operational plans are crucial for sustainable forest management. These plans consider long-term objectives, landscape-level considerations, and specific on-the-ground actions. 

• Tree Selection:

Methods like selective logging involve choosing specific trees based on their characteristics, while diameter-limit cuts focus on removing trees above a certain size. 

• Sustainability:

Forest management practices, including tree selection and renewal efforts, aim to ensure long-term wood supply and ecosystem health. 

• Regulations:

In Ontario, harvesting on Crown land is regulated by the Ministry of Natural Resources and Forestry, requiring permits and adherence to approved forest management plans. 

• Methods:

Various methods exist, including clearcutting (removing all trees in an area), seed-tree systems (leaving some trees for seed dispersal), and methods that focus on removing specific trees for timber or to promote regeneration.

• Equipment:

Specialized equipment like feller bunchers, skidders, and loaders are used in larger-scale harvesting operations. 

Considerations for harvesting small trees:

• Impact on Ecosystems:

Harvesting practices can affect soil erosion, water quality, and wildlife habitats. 

• Wood Quality:

Selective logging can help produce high-quality logs. 

• Economic Viability:

Harvesting small trees can be economically viable, particularly with proper planning and efficient operations. 

• Community Impact:

Sustainable forest management is crucial for the economic and social well-being of communities that rely on the forest industry. 

Final Edits. Hacked Edits. Hacked Re-Edits

Poplar Bricks + Polar Compsite bricks woth a snap in lock in Japnese like construction effort can be utilized in building construction while alternative insulators & Energy systems can increase the non-toxin & environment health approach 

Sydney Bennett Group 

https://sydneysspacelive.blogspot.com/2025/08/sydney-bennett-group.html

The Commonwealth Group 

https://sydneysspacelive.blogspot.com/2025/07/welcome-to-cig-calgary-european.html

OUR GLOBAL GRID SPREAD 

S.B.G & CIG expect to manage smaller, medium & larger facilities in over 25 countries connected to dcternalsnin over 60 between 2026-2030 & onward just for In-House grid investments for different purposes connected to external managed international investments 

This will assist with the 1-2 Tier subsidy & barriers to accessing land for use as subsidy housing & Tiers for will be invested as managed piggybakced efforts creating our global economic foundation 

S.B.G - CIG