Piston-Punch PZ Taps Piezoelectric
Piston-Punch PZ Taps Piezoelectric
INTRODUCTION + COMPARISONS
With PZ Taps we push in on a plate & it rebounds creating energy each compression
With PZ Speaker a speaker contracts & expands using music to compress & rebound a plate in the speaker to achieve the same
PZ Taps requires a fast + violent yet safe amount of Air-Pressure on both sides to contract & expand while PZ Speaker requires just a song to do the same
Sound deadening foam additive control decible output for Stationary & Motion Energy Plants for high output Energy as a compact additive accessory
PZ Taps
https://4bennettsjordannic.blogspot.com/2024/09/piston-punch-pz-taps-piezoelectric.html
PZ Speaker
https://4bennettsjordannic.blogspot.com/2024/09/cm-pz-speaker.html
DETAILS
Using a PZ Taps design rather than Speaker achieving the same result
If 40-60 Volts can occur in a basic PZ Tap compression to generate Energy in one compression & rebound we can align a Piston-Punch Pelton Turbine Punch design to repeatedly hit a PZ Tap at the rate of potentially over 1000 in 10 seconds creating a compact Energy generator
Voltage = 1kW × 1000 / 1A = 1000V
How many Volts in a Kilowatt
Voltage = (kW X 1000)/(√3 X current X power factor 0.8)
30 kW Kilowatt = 100 V and 300 A (for DC and single phase AC). Or 250 V and 120 A or any other combination that calculates to 30
To get kW, you multiply voltage and current and divide by 1,000. So a 30 kW machine could be 100 V and 300 A (for DC and single phase AC). Or 250 V and 120 A or any other combination that calculates to 30
Voltage x Amperage gives you power. V x A = W. 100V x 10A = 1000W = 1kW
What is a volt?
A "volt" is a unit of electric potential, also known as electromotive force, and represents "the potential difference between two points of a conducting wire carrying a constant current of 1 ampere, when the power dissipated between these points is equal to 1 watt." Stated another way, a potential of one volt appears across a resistance of one ohm when a current of one ampere flows through that resistance. Volts can be expressed in to SI base units thusly: 1 V = 1 kg times m2 times s-3 times A-1 (kilogram meter squared per second cubed per ampere).
What is voltage?
"Voltage" (V) is the potential for energy to move and is analogous to water pressure. The characteristics of voltage are like that of water flowing through pipes. This is known as the "water-flow analogy", which is sometimes used to explain electric circuits by comparing them with a closed system of water-filled pipes, or "water circuit", that is pressurized by a pump.
Current (I) is a rate of flow and is measured in amps (A). Ohms (R) is a measure of resistance and is analogous to the water pipe size. Current is proportional to the diameter of the pipe or the amount of water flowing at that pressure.
Voltage is an expression of the available energy per unit charge which drives the electric current around a closed circuit in a direct current (DC) electrical circuit. Increasing the resistance, comparable to decreasing the pipe size in the water circuit, will proportionately decrease the current, or water flow in the water circuit, which is driven through the circuit by the voltage, which is comparable to the hydraulic pressure in a water circuit.
The relationship between voltage and current is defined (in ohmic devices like resistors) by Ohm's Law. Ohm's Law is analogous to the Hagen–Poiseuille equation, as both are linear models relating flux and potential in their respective systems. Electric current (I) is a rate of flow and is measured in amps (A). Ohms (R) is a measure of resistance and is comparable to the water pipe size.
What is an amp?
An "amp", short for ampere, is a unit of electrical current which SI defines in terms of other base units by measuring the electromagnetic force between electrical conductors carrying electric current. The ampere is that constant current which, if maintained in two straight parallel conductors of infinite length, of negligible circular cross-section, and placed one metre apart in vacuum, would produce between these conductors a force equal to 2×10−7 newtons per metre of length.
What is amperage?
"Amperage" is the strength of a current of electricity expressed in amperes.
What is an amp?
An "amp", short for ampere, is a unit of electrical current which SI defines in terms of other base units by measuring the electromagnetic force between electrical conductors carrying electric current. The ampere is that constant current which, if maintained in two straight parallel conductors of infinite length, of negligible circular cross-section, and placed one metre apart in vacuum, would produce between these conductors a force equal to 2×10−7 newtons per metre of length.
What is amperage?
"Amperage" is the strength of a current of electricity expressed in amperes.
What is a watt?
A "watt" is a measure of power. One watt (W) is the rate at which work is done when one ampere (A) of current flows through an electrical potential difference of one volt (V).
FURTHER DETAILS
A C/M PZ Taps system keeps a Battery in a Switch-Back EV system recharged faster with connected accumulated Energy Yield accessories
Converting kilowatt to Volts. 1 kW = 1000 Volts
You'll need to divide the formula by √3 and the power factor of 0.8 for a three-phase circuit. In this case, we assume you have a DC circuit with one amp of current flowing through it. Voltage = 1kW × 1000 / 1A = 1000V
An EV battery's weight is determined by its size and energy storage capacity. Usually, the bigger the battery, the more energy it can store and the more it weighs. For example, 6 to 12 kilowatt-hour (kWh) batteries typically weigh between 100 and 150 kg, while 60 to 100-kWh batteries range from 350 to 600 kg
In order to quantify the actual amount of electricity consumed, there needs to be a period of time in which that rate occurs. 1 kWh equals one hour of electricity usage at a rate of 1 kW, and thus the 2 kW appliance would consume 2 kWh in one hour. The equation is simply (kW x Time = kWh)
All you need to do is multiply the kW number by the time in hours. The 3-kW heater, if used for 3.5 hours, would use (3 x 3.5) 10.5 kWh of electricity
kWh = 20 kW X 5 hrs - This will give us a total kWh consumption of 100 kWh
1000 kW in 1 Minute generated to charge
80 kW × 400 Time = 32,000 kWh (kW x Time = kWh)
MICRO SIZE YEILDS PER MINUTE
Micro Sized - Non-Micro Systems
Daily PZ Taps Yeild
1440 x 20,000,000 = 28,800,000,000 Volts Generated in a 24 hour interval if the Piston-Punch section connected to the PZ Taps Accessory is left on while other sections are shut off while not in use
Reference Link
Generate 45 volts of electricity with one blow on the piezoelectric!
https://m.youtube.com/watch?v=f_xYoTRwviM
Strong springs in the accuator allow for repeatative compression & bounce back using PZ Taps rather than a Drop bounce back or regenerative track
This can create a lot of Energy in a compact space quickly as an additive operating off Endless Energy as once the Punch-Pelton turbine is initiatied it does not shut off unless you shut it off & we can speed up PZ Taps from a 1-1000+ Yeild in 10-25 seconds working of under nano+milliseconds
This Energy Generator as a Yeild accessory to Piston-Punch - Switch-Back EV - Drop Hybrid can increase Energy Generation potentially by 2-100% + in
Compression based manufactured Energy Yeilds for Stationary & Motion Energy Plants
COMPOUNDED ENERGY GENERATION
40,000 - 60,000 Volts in under 25 seconds from one micro PZ Taps compression block from a Punch-Pelton
Add multiple micro PZ Taps compression block to compound the effect generating 400,000-600,000 Volts in 10-25 seconds or less
This Energy Generator as a Yeild accessory to Piston-Punch - Switch-Back EV - Drop Hybrid can increase Energy Generation potentially by 2-100% + in
Compression based manufactured Energy Yeilds for Stationary & Motion Energy Plants
COMPOUNDED ENERGY GENERATION
40,000 - 60,000 Volts in under 25 seconds from one micro PZ Taps compression block from a Punch-Pelton
Add multiple micro PZ Taps compression block to compound the effect generating 400,000-600,000 Volts in 10-25 seconds or less
2,400,000 - 3,600,000 per minute on 10 averages in Voltage translating to Kilowatt Energy Generation in a small package off only 10 Micro-PZ Taps in line with other C/M Energy Yeild accessories
INCREASING PZ TAP YEILDS
If you add a PZ Tap on the inside punching it back outward with those punching the system inward that can speed up the spring back design to speed up Voltage generation
If you add a PZ Tap on the inside punching it back outward with those punching the system inward that can speed up the spring back design to speed up Voltage generation
The Yeild can increase 1-25+ % 3,000,000 - 4,500,000 + per minute on 10 averages in Voltage
A Piston-Punch - Switch-Back EV Drop Hybrid or combination with or without Energy Yeild accessories
100-1000+ HP at Endless Energy - Unlimited Range
Energy Yeild accessories allow for higher performance & faster EV Battery storage self-recharging bridging the gap of inefficiencies
100-1000+ HP at Endless Energy - Unlimited Range
Energy Yeild accessories allow for higher performance & faster EV Battery storage self-recharging bridging the gap of inefficiencies
Energy Generating
Energy Use
Energy Storage
Energy Use
Energy Storage
Always more Energy than spent regardless of Performance using different designs for different applications
Zero Emissions - Close to Zero Process
Zero Emissions - Close to Zero Process
Switch-Back Ev
https://finalstatement2024.blogspot.com/2024/09/ev-battery-electric-banks-2-6-ev.html
Piston-Punch
https://finalstatement2024.blogspot.com/2024/09/start-piston-shot-punch-company-or_616.html
CONVERSION TO KILOWATTS
Voltage = 1kW × 1000 / 1A = 1000V
How many Volts in a Kilowatt
Voltage = (kW X 1000)/(√3 X current X power factor 0.8)
30 kW Kilowatt = 100 V and 300 A (for DC and single phase AC). Or 250 V and 120 A or any other combination that calculates to 30
To get kW, you multiply voltage and current and divide by 1,000. So a 30 kW machine could be 100 V and 300 A (for DC and single phase AC). Or 250 V and 120 A or any other combination that calculates to 30
Voltage x Amperage gives you power. V x A = W. 100V x 10A = 1000W = 1kW
What is a volt?
A "volt" is a unit of electric potential, also known as electromotive force, and represents "the potential difference between two points of a conducting wire carrying a constant current of 1 ampere, when the power dissipated between these points is equal to 1 watt." Stated another way, a potential of one volt appears across a resistance of one ohm when a current of one ampere flows through that resistance. Volts can be expressed in to SI base units thusly: 1 V = 1 kg times m2 times s-3 times A-1 (kilogram meter squared per second cubed per ampere).
What is voltage?
"Voltage" (V) is the potential for energy to move and is analogous to water pressure. The characteristics of voltage are like that of water flowing through pipes. This is known as the "water-flow analogy", which is sometimes used to explain electric circuits by comparing them with a closed system of water-filled pipes, or "water circuit", that is pressurized by a pump.
Current (I) is a rate of flow and is measured in amps (A). Ohms (R) is a measure of resistance and is analogous to the water pipe size. Current is proportional to the diameter of the pipe or the amount of water flowing at that pressure.
Voltage is an expression of the available energy per unit charge which drives the electric current around a closed circuit in a direct current (DC) electrical circuit. Increasing the resistance, comparable to decreasing the pipe size in the water circuit, will proportionately decrease the current, or water flow in the water circuit, which is driven through the circuit by the voltage, which is comparable to the hydraulic pressure in a water circuit.
The relationship between voltage and current is defined (in ohmic devices like resistors) by Ohm's Law. Ohm's Law is analogous to the Hagen–Poiseuille equation, as both are linear models relating flux and potential in their respective systems. Electric current (I) is a rate of flow and is measured in amps (A). Ohms (R) is a measure of resistance and is comparable to the water pipe size.
What is an amp?
An "amp", short for ampere, is a unit of electrical current which SI defines in terms of other base units by measuring the electromagnetic force between electrical conductors carrying electric current. The ampere is that constant current which, if maintained in two straight parallel conductors of infinite length, of negligible circular cross-section, and placed one metre apart in vacuum, would produce between these conductors a force equal to 2×10−7 newtons per metre of length.
What is amperage?
"Amperage" is the strength of a current of electricity expressed in amperes.
What is an amp?
An "amp", short for ampere, is a unit of electrical current which SI defines in terms of other base units by measuring the electromagnetic force between electrical conductors carrying electric current. The ampere is that constant current which, if maintained in two straight parallel conductors of infinite length, of negligible circular cross-section, and placed one metre apart in vacuum, would produce between these conductors a force equal to 2×10−7 newtons per metre of length.
What is amperage?
"Amperage" is the strength of a current of electricity expressed in amperes.
What is a watt?
A "watt" is a measure of power. One watt (W) is the rate at which work is done when one ampere (A) of current flows through an electrical potential difference of one volt (V).
FURTHER DETAILS
A C/M PZ Taps system keeps a Battery in a Switch-Back EV system recharged faster with connected accumulated Energy Yield accessories
Converting kilowatt to Volts. 1 kW = 1000 Volts
You'll need to divide the formula by √3 and the power factor of 0.8 for a three-phase circuit. In this case, we assume you have a DC circuit with one amp of current flowing through it. Voltage = 1kW × 1000 / 1A = 1000V
An EV battery's weight is determined by its size and energy storage capacity. Usually, the bigger the battery, the more energy it can store and the more it weighs. For example, 6 to 12 kilowatt-hour (kWh) batteries typically weigh between 100 and 150 kg, while 60 to 100-kWh batteries range from 350 to 600 kg
In order to quantify the actual amount of electricity consumed, there needs to be a period of time in which that rate occurs. 1 kWh equals one hour of electricity usage at a rate of 1 kW, and thus the 2 kW appliance would consume 2 kWh in one hour. The equation is simply (kW x Time = kWh)
All you need to do is multiply the kW number by the time in hours. The 3-kW heater, if used for 3.5 hours, would use (3 x 3.5) 10.5 kWh of electricity
kWh = 20 kW X 5 hrs - This will give us a total kWh consumption of 100 kWh
THE RESULT
Switch-Back EV 80 Kwh Pack
Two 40 Split EV Battery packs with a switch back system with energy generating to recharge the spent pack while using the fully charged pack with PZ Taps generating just from the PZ Taps accessory separately as an Energy Yeild accessory
1 kW = 1000 Volts
With 1 Million + Volts per minute generated the spent pack once switched is recharged quickly offering endless energy + unlimited range
Two 40 Split EV Battery packs with a switch back system with energy generating to recharge the spent pack while using the fully charged pack with PZ Taps generating just from the PZ Taps accessory separately as an Energy Yeild accessory
1 kW = 1000 Volts
With 1 Million + Volts per minute generated the spent pack once switched is recharged quickly offering endless energy + unlimited range
1000 kW in 1 Minute generated to charge
Almost instant recharge
80 kW × 400 Time = 32,000 kWh (kW x Time = kWh)
MICRO SIZE YEILDS PER MINUTE
Micro Sized - Non-Micro Systems
10+ Pelton-Punch to PZ - Tap Size + Cube decrease
40 x 60,000 = 2,400,000 Volts in 10-25 seconds
8,000,000 - 14,400,000 Volts a minute
Daily PZ Taps Yeild
1440 x 2,000,000 = 2,280,000,000 Volts Generated in a 24 hour interval if the Piston-Punch section connected to the PZ Taps Accessory is left on while other sections are shut off while not in use
REGULAR SIZE YEILDS PER MINUTE
Regular Sized - Non-Micro Systems
40 x 60,000 = 2,400,000 Volts in 10-25 seconds
8,000,000 - 14,400,000 Volts a minute
Daily PZ Taps Yeild
1440 x 2,000,000 = 2,280,000,000 Volts Generated in a 24 hour interval if the Piston-Punch section connected to the PZ Taps Accessory is left on while other sections are shut off while not in use
REGULAR SIZE YEILDS PER MINUTE
Regular Sized - Non-Micro Systems
10+ Pelton-Punch to PZ - Tap Size + Cube increase
40 x 500,000 = 20,000,000 Volts in 10-25 seconds
80,000,000 - 120,000,000 Volts a minute
40 x 500,000 = 20,000,000 Volts in 10-25 seconds
80,000,000 - 120,000,000 Volts a minute
Daily PZ Taps Yeild
1440 x 20,000,000 = 28,800,000,000 Volts Generated in a 24 hour interval if the Piston-Punch section connected to the PZ Taps Accessory is left on while other sections are shut off while not in use
LARGE SIZE YEILDS PER MINUTE
High Yield Compact - High Roll
Regular Sized - Non-Micro Systems
Regular Sized - Non-Micro Systems
10+ Pelton-Punch to PZ - Tap Size + Cube increase
40 x 1,500,000 = 60,000,000 Volts in 10-25 seconds
300,000,000 - 360,000,000 Volts a minute
40 x 1,500,000 = 60,000,000 Volts in 10-25 seconds
300,000,000 - 360,000,000 Volts a minute
Large 1000 PZ Taps Yeild - Compact Design
Fitting into under a 40 x 40 container 1-4 stories
1000 Large Plants = 360 Billion Volts a minute with low cost installation & low cost maintenance
1440 Minutes in a day 518,400,000,000,000 (Billion +) Volts a day
525,600 Minutes a year
C/M PZ TAPS ENERGY - COMPACT UNITS
Piston-Punch - PZ Tap - Piston-Punch
Repeatative Taps using the Piston-Punch to a Pelton-Punch Cube
Energy to Battery
Energy to Grid
Energy to Use
Excess Pelton-Punch Cube Energy
Energy to Battery
Energy to Grid
Energy to Use
A compact generating - use through combination Piston-Punch on either side of the PZ Taps wall allowing the Pelton-Punch system to tap the PZ Energy repeatedly every minute generating excessive Energy gains
Piston-Punch - PZ Tap - Piston-Punch
Repeatative Taps using the Piston-Punch to a Pelton-Punch Cube
Energy to Battery
Energy to Grid
Energy to Use
Excess Pelton-Punch Cube Energy
Energy to Battery
Energy to Grid
Energy to Use
A compact generating - use through combination Piston-Punch on either side of the PZ Taps wall allowing the Pelton-Punch system to tap the PZ Energy repeatedly every minute generating excessive Energy gains
EFFICIENCIES
Piston-Punch Efficiencies
Endless Air-Pressure out the end of a Use-Chamber is maximized by how fast the Pistons can reload the Air at speed yet it is always endless
In testing it is more efficient to convert to an Electric or Hydraulic Motor & EV Battery storage Switch-Back EV system than direct to Axel or Thrust propulsion yet a combination or any of can be used for maximum efficiencies
Piston-Punch Efficiencies
Endless Air-Pressure out the end of a Use-Chamber is maximized by how fast the Pistons can reload the Air at speed yet it is always endless
In testing it is more efficient to convert to an Electric or Hydraulic Motor & EV Battery storage Switch-Back EV system than direct to Axel or Thrust propulsion yet a combination or any of can be used for maximum efficiencies
ALTERNATIVE SYSTEM
PV Taps W/O Piston-Punch Piezoelectric
Boxer Syringe - Bounce-Back Hybrid Spring
Boxer Syringe - Bounce-Back Hybrid Spring
Reference Link
Generate 45 volts of electricity with one blow on the piezoelectric!
https://m.youtube.com/watch?v=f_xYoTRwviM
C/M Cypress Motors
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