C/M Stationary. Shipping Container

 

C/M Stationary. Shipping Container

 

AN ENERGY FEAT. 

In 3-4 minutes we achieve the 15,896,756 MWh which Robert Moses Niagara Power Plant produces per year with just 6 Shipping Containers using Dr Sydney N Bennett's CIG - C/M Stationary Energy that can be metered

80 days = 2.63 months offers 78-80 quads or quadrillion British thermal units (Btu) of energy yet we can speed that up to under 2 or 1 months if not under a week

A DIY LIKE CUSTOM FAB  

Cylindrical - Bounce Back

Adding in a more 0.5-3.0 hybrid with 1.0-2.0 mix integrated with PZ Taps variants then maximumzation features for a compact space in filtering recirculating air through with air additives

This is different than a custom-fab as it utilizes a more DIY custom effort with sourceable supplies with similar cost - pricing to safely maximize power output 

The "Smart-Gen" Generator simply creates Energy from a shipping container with safe blueprints & on + shut off system with Emergency safety system integrated 

You can "plop" a shipping container down on a foundation & your Energy needs are sorted 

ENERGY GENERATION OUTPUT 

In a small vehicle like sedan we can do quite a lot of volts a second. Within 5-25 miliseconds then every second we can do over 300,000 Volts 

In a shipping container we can increase yields well beyond 

20 FT 

In a 20 ft we can generate more than 7 Million volts a second 

  That is over 420 Million Volts a minute. 420,000 Kilowatts a minute (/1000)

Units likely under $150,000 each or up to $1.25 Million on average unless extra output features are added with low cost maintenance & replacement parts every 5-10 / 10-100 years 

40 FT 

In a 40 ft we can generate more than 14 Million volts a second 

  That is over 840 Million Volts a minute. 840,000 Kilowatts a minute (/1000)

Units likely under $250,000 each or up to $1.5 Million on average unless extra output features are added with low cost maintenance & replacement parts every 5-10 / 10-100 years 

ZERO EMISSIONS 

Zero Emissions. Close to Zero Cycle 

IN COMPARISON. NIAGARA FALLS

Niagara Falls generates a significant amount of electricity through hydroelectric power, primarily at the Sir Adam Beck and Robert Moses power stations. The total capacity for electricity generation at Niagara Falls is close to 4.9 million kilowatts, enough to power roughly 3.8 million homes. The Canadian side, mainly through the Sir Adam Beck stations, contributes around 2.2 million kilowatts. The US side, primarily through the Robert Moses plant, can generate up to 2.6 million kilowatts

With C/M Stationary Energy we want to in a compact area compete with Niagara Falls 

It only takes six (6) 40 Ft containers to achieve the same output per minute as Niagara Falls

Initial fees: $1,500,000.00 - $9,000,000.00 in Canadian Dollars without foundation or externals.

Suggested monthly maintenance fund at 10-75% of $835 - 6,250 per month to develop a pool + insurance effort to cover replacement parts (on up to 6 units) which is where light tiered metering comes in to cover a break even - for profit effort 

As invented by Dr Sydney N Bennett between 1988-1995 & since patented, copyrighted & trademarked in 100-170 of 195 countries between 1996-2001 & innovated since & owned by CIG 

SHIPPING CONTAINERS   

20 or 40 

Shipping containers come in a few standard sizes: 20 feet and 40 feet long, with standard height (8'6") or high cube (9'6") height. The exterior dimensions for a 40ft container are 40'0"L x 8'0"W x 8'6"H, while the interior is 39'5"L x 7'8"W x 7'10"H. A 20ft container measures 20'0"L x 8'0"W x 8'6"H externally and 19'4"L x 7'8"W x 7'10"H internally. 

Standard Container Sizes:

20-foot container: 

Exterior: 20'0" L x 8'0" W x 8'6" H 

Interior: 19'4" L x 7'8" W x 7'10" H 

40-foot container: 

Exterior: 40'0" L x 8'0" W x 8'6" H 

Interior: 39'5" L x 7'8" W x 7'10" H 

40-foot High Cube:

Exterior: 40'0" L x 8'0" W x 9'6" H 

Interior: 39'5" L x 7'8" W x 8'10" H 

Key Considerations:

Standard height: 8'6" 

High cube: 9'6" (1 foot taller than standard height) 

International Organization for Standardization (ISO) standards: Ensure containers are built to the same specifications for global transport. 

Width: All containers are 8 feet wide. 

Custom sizes: While less common, containers can be manufactured in various lengths (e.g., 10', 12', 45', 53'). 

ON 40 FT CONTAINER PRICING 

CIG IMSRP with competitors would levy a 25-50% price increase from base cost & a fair profit average at $1,500,000.00 - $9,000,000.00 then any export - import fees if not manufactured domestically yet base price is 1,500,000.00 - $9,000,000.00 on 6 units in 40 ft container sized

Maximum Price before Tax $1,875,000 - $11,250,000. Import fees not included if any 

Under $12 Million. Canadian Dollars 

ENERGY GENERATION & OUTPUT 

15,896,756 MWh or 16,000,000 X 1000 equalling to 16 Billion has to be achieved in Wh or Watt Hours within less than a day & repeatedly on a 24 hour cycle despite ability to take one or all containers offline to inspect

This compact Energy output competes with Waterfall Hydrodams & gravity Hydrodams with increased output efforts 

5 Million Kilowatts per minute with 6 containers

5,000,000 Kilowatts = 5,000,000,000 Watts

In 3-4 minutes we achieve the 15,896,756 MWh which Robert Moses Niagara Power Plant produces per year

NIAGARA FALLS ENERGY OUT

Niagara Falls generates a significant amount of electricity annually, with the Robert Moses Niagara Power Plant alone producing over 15,896,756 MWh per year. The total electricity generated in Niagara Falls is shared by the US and Canada, with a combined capacity close to 4.9 million kilowatts, enough to power roughly 3.8 million homes. 

Breakdown:

Robert Moses Niagara Power Plant:

This US-based plant has an installed capacity of 2,525 MW and generates 15,896,756 MWh annually. 

Canadian Hydroelectric Facilities:

On the Canadian side, facilities like the Sir Adam Beck stations and DeCew Falls stations contribute significantly to the overall power output. 

Total Capacity:

Niagara Falls has the capacity to generate close to 4.9 million kilowatts of electricity. 

Homes Powered:

The total power output from Niagara Falls is sufficient to power about 3.8 million homes. 

Factors Affecting Output:

The actual power generated varies daily, monthly, and yearly due to factors like river flow, electricity demand, and tourism season. 

Historical Context:

Niagara Falls has been a major source of hydroelectric power since the late 19th century. 

The first commercial use of alternating current (AC) for long-distance power transmission was demonstrated at Niagara Falls. 

The Sir Adam Beck complex, a key part of Ontario Power Generation's hydroelectric facilities, recently achieved its highest energy output in over 40 years. 

MEGAWATT HOURS

In electricity, MWh (megawatt hour) represents a unit of energy, specifically the total amount of electricity consumed or generated over a period of time, while MW (megawatt) represents a unit of power, or the rate at which electricity is produced or used. One MWh is equivalent to 1,000 kWh (kilowatt-hours). 

Here's a more detailed explanation:

Megawatt (MW):

A megawatt is a unit of power, representing the rate at which energy is used or produced. It indicates how much electricity a power plant can generate at any given moment or how much electricity a device consumes at any given time. 

Megawatt hour (MWh):

A megawatt hour is a unit of energy, representing the total amount of electricity used or generated over a specific period (one hour in this case). 

Relationship:

If a power plant with a capacity of 1 MW operates at its maximum capacity for one hour, it will generate 1 MWh of electricity. 

Example:

A large factory might consume several MWh of electricity in a day, while a single household might consume a few MWh in a month. 

Analogy:

Think of a faucet. The size of the faucet (how much water it can release at once) is like megawatts. The total amount of water you collect in a bucket over an hour is like megawatt hours. 

VOLTS VS WATTS

"Volt per watt" is not a standard or meaningful electrical term. Volts (V) measure voltage, which is the electrical potential difference, while watts (W) measure power, which is the rate at which energy is used or generated. These are distinct quantities, though related through Ohm's law (P = VI, where P is power in watts, V is voltage in volts, and I is current in amperes). It's more common to see calculations involving converting volts and amps to watts. 

Here's a breakdown:

Voltage (Volts): Represents the electrical "pressure" that pushes electrons through a circuit. 

Power (Watts): Represents the rate at which electrical energy is used or produced. 

Relationship: Power is calculated by multiplying voltage and current (amps) (W = V * A). 

No Direct Conversion: There's no direct way to convert volts to watts without knowing the current (amps). 

Example: If you have a 12V battery and a device that draws 2 amps, the power used would be 24 watts (12 * 2 = 24).  

To convert volts to watts, you need to know the current in amps. The formula is simple: Watts = Volts x Amps. For example, if you have a device that operates at 120 volts and uses 2 amps, it will consume 240 watts of power.

Mechanical Engineering + Physics based Energy Generation

1 PZ Tap feature pulls 40 Volts in & out

Volt to Amp into Watts for conversion = 40-80+ per contraction - expansion bounce back revolution

Now increase Yields by over 10,000 & we have over 400,000 - 800,000 Watts converted from Volt generation 

We can run 400,000 - 800,000 Watts or more or less a second or within 5-75 / 5-25 milliseconds with minimal wear on parts 

One million watts is equivalent to one megawatt (MW). A megawatt is a unit of power commonly used to measure the output of large-scale power generation, like power plants or large renewable energy installations. 

Dr Sydney N Bennett's Piston-Punch Stationary Energy Plant designs generate their own perpetual repeatative Volt generation which is then covered to amps & watts for use or storage 

Increasing Yields so 800,000 Watts hits 2 Million - 10+ Million in a compact offering with safety monitoring effort

Energy Generated & Converted per second

10 Million Watts coverts to 10,000 Kilowatts. Now this in 1-60 seconds or more adds up 

To convert megawatt-hours (MWh) to kilowatt-hours (kWh), you multiply the number of megawatt-hours by 1000, since 1 MWh is equal to 1000 kWh

16 Bn (Billion) Kilowatts / 10,000

1,600,000 X 10,000 Kilowatts

60 minutes X 24 hours = 1440 minutes a day

144,000 milliseconds a day

In effort increasing amperage flow in volt to watt conversion then Yeilds we can achieve the 16 Billion Kilowatts in one day or shorten it down to 3-4 minutes or less or more

THE UNITED STATES OF AMERICA LIKE ALL COUNTRIES 

100% of US Fossil Fuel reliance can end. This Stationary C/M Piston-Punch Energy can easily replace at a lower cost noting savings within 2-5 years then permanently

78.2 Quadrillion of Energy Usage in C/M Piston-Punch Stationary Energy 

In 2023, the United States consumed approximately 94 quadrillion British thermal units (Btu) of energy, a slight decrease from 2022. Fossil fuels (petroleum, natural gas, and coal) accounted for nearly 83% of this total consumption, while non-fossil fuel sources (renewables and nuclear) made up the remaining 17%. Petroleum remained the most-consumed fuel, followed by natural gas. 

Key Aspects of U.S. Energy Consumption:

Total Consumption:

In 2023, the U.S. consumed about 94 quadrillion Btu of energy. 

Fossil Fuels Dominate:

Fossil fuels continue to be the primary energy source, with petroleum, natural gas, and coal making up the bulk of consumption. 

Renewable Energy Growth:

Renewable energy consumption has been increasing, reaching a record high in 2023. 

Sectoral Breakdown:

The industrial sector is a major consumer of energy, with significant use of fossil fuels. The transportation sector, heavily reliant on petroleum, also accounts for a large share of total energy consumption. 

Electricity Consumption:

In 2022, the U.S. consumed about 4 trillion kilowatt-hours (kWh) of electricity, with the residential, commercial, and industrial sectors being the major consumers. 

Per Capita Consumption:

The U.S. has a high per capita energy consumption compared to the global average, although it has declined in recent years. 

Energy Expenditures:

U.S. consumers spent $1.7 trillion on energy in 2022, representing 6.7% of the country's GDP. 

International Comparison:

The U.S. accounts for a significant portion of global energy consumption, despite having a smaller share of the world's population. 

One quadrillion (10^15) Joules is equivalent to 277,777,777.777 kilowatt-hours (kWh). This is also equal to 277.78 gigawatt-hours (GWh) or 0.2778 terawatt-hours (TWh). 

Here's the breakdown: 1 quadrillion (10^15) Joules (J) = 277,777,777.777 kWh, 1 kWh = 3,600,000 Joules (J), and 1 TWh = 1,000,000,000 kWh. 

Knowing this we require 300 Billion Kilowatt Hours for one annum of Energy consumption for all of the USA lower 48 & Alaska just 78-80 times that. 

300 Bn / 16 Bn = 18.75 

We require 75 4 minute revolutions to generate our 300 Bn (Billion) in one facility connecting 78-80 

15 4 month cycle revolutions in 1 hour then 24 hours which equals 360 & we require 75

With this fact we can achieve 80 times from one C/M Stationary Plant in under 80 days for the entire year for 80 Quads

6-10 40 Ft Shipping Containers could do it 

FEATURED CIG INVENTOR & SHAREHOLDER 

Scientist - Billionaire Investor 

Resume CV - Dr Sydney N Bennett 

https://sydneysspacelive.blogspot.com/2025/04/resume-cv-2025-dr-sydney-nicola-bennett_14.html

The 3 biggest feats of Dr Sydney N Bennett's inventions on a vast portfolio from 1994-1995 / 1996-2001 after 1988-1989 onward concepts & ideas

1. Self-recharging Batteries

  Scaled for any size in Motion or Stationary Energy plants & can be metered 

2. Self-Refilling Air-Compression

  Scaled for any size in Motion or Stationary Energy plants & can be metered 

3. Perpetual Hydrogen & Water Cycles

  Scaled for any size in Motion or Stationary Energy plants & can be metered 

Switch-Backs by CIG invented by Dr Sydney N Bennett alongside the Piston-Punch are amongst patented, copyrighted & trademarked efforts since 2001 or prior to with innovations since held in 100-170 of 195 countries

Zero Emissions. Contained Endless Energy. Zero cycle or close to by Dr Sydney N Bennett 

S.B.G Group + CIG & P.K-K.T Labs 

https://calgary2025.blogspot.com/2025/06/retirement-of-dr-sydney-n-bennett.html

A small-scale prototype works. We scale up & go. 100+ Quads in under a week or day & instant models 

CLEAN ZERO ENERGY ONLY

Waterfalls + Hydrodams we require still. Everything else us not required yet solar & wind assists as it's in place

Hydrogen as a last resort & fission or fusion are not required

C/M Piston-Punch Energy. Like a human lung & heartbeat. Breaths in & recirculates air then Energy is extracted through features then converted for storage & or use 

CIG