C/M Alliance. Alliance.
C/M AUTOMOTIVE - ALLIANCE
Clean Energy. Globally scaled
OUR GLOBAL EMERGENCY SAFETY BOARD
For perpetual Energy
Partner Brands running off C/M & Sydney Nicola Bennett's Kinetics
Like with Aviation & other decisions under licence for our Emergency Safety System in over 100 countries for Motion like Stationary Energy
We have a few major brands connecting with a different approach than C/M Aviation & Automotive Parts & Custom-Fab with Demo Models for performance in affordability tiers as a separate offering joining
Most of any company's brand can join
It's a financially fair effort connecting market share & investment then security grids for a larger goal
Retrofit Kits. Ground Up Designs. C/M mock designs with innovations under other brands
"Bringing everyone up to a new higher equal for the Net Zero global goals on Energy"
Kinetic Energy Generators. Simply push a button & adjust a sinple setting or leave generalized standard settings & your Energy is generated. Full perpetual & low cost. Easy & low cost to maintain. Simple. Reliable
2500 - 400,000+ kW in under 1 second. Generated using under 100 Watts
Meta: Facebook Profileposts 683 (Final)
May 2026 conclusion for H.I.3
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C/M Cypress Motor Sports
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cypressmotorsports.com
2.5 Million Sq Ft offers 500 (13 unit) 5 gW Stationary Energy Plants at $375,000,000.00 (Million). 2500 gW per second
Scale:
For context, 1 GW is equal to 1,000 megawatts (MW) or one billion watts, enough to power roughly 700,000 to 1 million homes depending on usage
2500 gW offers $1.75 Billion to $2.5 Billion homes
In comparison a 5 gW plant runs over 1.1 Billion in initial costs to implement then maintenance can be over $10 million every 5 years or so which if your doing 3 million homes that is 10 million devided by 60 (166,666) devided by by 3 million. $1.8 - $1.9 then fees covering initial install & delivery with metering then taxation creating stable rates
Do the math. C/M 2500 gW run a lot less in cost & maintenance than average 5 gW plants
Payments into infrastructure are often spread 25-30 years for initial costs then maintenance integrated with factors connected devided out based on delivery for different forms of use
CONSUMPTION
Household energy consumption is dominated by heating and cooling, which often account for over 50–60% of total usage, followed by water heating (16–20%) and appliances/lighting. In Canada, natural gas and electricity are the primary fuel sources, with Defining Ontario's Typical Electricity Residential Customer 2023 Update highlighting that space and water heating make up 81% of energy usage in some regions.
Household energy consumption is dominated by heating and cooling, which often account for over 50–60% of total usage, followed by water heating (16–20%) and appliances/lighting. In Canada, natural gas and electricity are the primary fuel sources, with Defining Ontario's Typical Electricity Residential Customer 2023 Update highlighting that space and water heating make up 81% of energy usage in some regions.
Key Components of Household Energy Consumption
• Space Heating/Cooling: The largest consumer (often 50%–60%+).
Water Heating: 16%–20% of energy use.
Appliances & Electronics: 20%–25% (refrigeration, laundry, computers).
Lighting: ~4–5%.
Main Energy Sources
• Natural Gas: Primarily for space/water heating (roughly 50% of residential energy in Canada).
Electricity: Used for cooling, lighting, and appliances, increasingly for heating.
Others: Heating oil, propane, and wood.
Factors Impacting Energy Use
• Household Energy Use Intensity: Older homes typically have higher heating demands due to poor insulation.
Climate & Size: Larger homes and colder climates significantly increase heating/cooling loads.
Efficiency: Upgrading to high-efficiency furnaces, appliances, and improved insulation can drastically reduce energy usage.
Ontario Perspective (Example):
In Ontario, the average household uses roughly 90 GJ of natural gas per year, and the average homeowner spends thousands annually on energy, varying heavily by income.
PRICING
Household energy pricing typically breaks down into electricity (56%), natural gas (38%), and other fuels (6%), with average Canadian costs often driven by regional hydroelectric availability. Electricity is priced via tiered rates (e.g., 12.0–14.2 ¢/kWh) or time-of-use (e.g., 9.8–20.3 ¢/kWh) based on consumption volume and timing.
Key Household Energy Pricing Components (Ontario Example):
• Electricity (Tiered): Lower rates (e.g., 12.0 ¢/kWh) apply to the first 600–1,000 kWh, with higher rates (14.2 ¢/kWh) for excess usage.
Electricity (Time-of-Use - TOU): Prices vary by time, with off-peak rates (9.8¢/kWh) and on-peak rates (20.3¢/kWh).
Natural Gas: Charges include usage, transportation, and cost adjustments.
Other Fuels: Includes fuel oil and propane, mainly used in rural areas.
Common Factors Affecting Bills:
• Usage Timing: Using appliances during off-peak hours (weekends/nights) lowers costs.
Consumption Level: Higher consumption tiers increase costs.
Region: Rural areas may have higher costs due to reliance on electric heating and other fuels, while urban areas like the GTA have lower costs due to cheaper natural gas usage.
Energy Efficiency: Using LED bulbs can significantly reduce energy usage for lighting (e.g., 60-watt equivalent using 10 watts). Financial
You can calculate your specific costs using the Ontario Energy Board Bill Calculator.
ALLIANCE AUTOMOTIVE
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