Strange Electrical Generator

Business Plan for Suxé International

January 2003

(Up-dated May, 2004 to version 5.0)

Suxé Engine-less Electrical Generators

Suxé International

Email: [email protected] Website: www.suxe.co.uk

Suxé International Business Plan ~ January 2003 of 25


PREFACE

This business plan covers the research and development stage of a new Suxé Generator, which works upon new generation principles that allow many advantages over conventional electrical generators. The most important features are:-

• No diesel, or turbine engine is required to supply rotational movement to the rotor; this is now provided by an integrally installed electric motor and an integrally generated motive force. All power requirements are taken from the generator output.

• Torque-less generation provided by reduced ferrous

components and a on-load motive force given, directly proportional to the output power given by the Suxé generator.

• Any waveform (triangular, sine, square and direct current)

may generated by the Suxé generator, with only a software change introduced by external switches.

• Any frequency may be generated by introducing a rotor

speed control loop.

• Heat problems in electrical generation have now been significantly reduced, thereby increasing the overall operating efficiencies.

• Individual generation systems will now be available to point-

of-use clients (i.e. three phase and single phase).


Contents

1.0 Outline of the Suxé International Business Plan 2.0 Suxé SRG Technology Overview 3.0 Suxé SRG Product Development and Marketability 4.0 Prototype SRG Development ~ First Phase Development. 4.1 Basic Technology Development. 4.2 Operation Principles of the Suxé Generator. 5.0 Prototype SRG Development ~ Second Phase Development 5.1 Advanced Technology Development

6.0 Prototype SRG Development ~ Third Phase Development 6.1 Specific Market Development

7.0 Prototype SRG Development ~ Fourth Phase Development 7.1 Spin-off Market Development 8.0 Possible Financing Arrangements for Suxé International 8.1 United Kingdom - DTI technology grants 8.2 United States – DOE technology grants. 8.3 Shareholding Funding schemes 8.4 Going ahead alone. 9.0 Business Structure for Suxé International.

9.1 Company Directors. 9.2 Corporate Structure to be Implemented. 9.3 Corporate Objectives.

10.0 Three Years Financial Estimates.

10.1 Assumptions Made. 10.2 Year One. 10.3 Year Two. 10.4 Year Three.


1.0 Outline of the Suxé International Business Plan. This business plan has been conceived virtually on a start-up company basis, as many of the previous company’s products were becoming obsolete. A period of investigation was carried out to consider new technologies for possible development. Suxé International engineers considered the Suxé Self-Rotating Generator Technology (SRG), the most worthy for further development of all the examined projects. The Suxé SRG project was started in March 2003 and the prototype unit was finally tested in April 2004. The prototype’s target was to produce a working model that demonstrated that electricity can be generated by this new and novel manner, to light a 240 vac light bulb and by using an electric motor for the motive force, instead of using engines running on fossil fuels. However, the first prototype was deveveloped and tested to prove many of the novel features, but whilst many features were proven, the generator was found to require new exotic and expensive magnetic nickel- iron alloy materials, which exceeded the budget for the first prototype. It has provided invaluable data on the design, sizing, manufacturing and control system technologies, which will allow us to extrapolate the relevance of this new technology. With the final results of the prototype unit collated and analysed, we are gratified that this technology has been considered worthy of continued advanced development. A further prototype has been prepared for manufacture and will yield enough power to feed the average dwelling and would be available for demonstration to the various interested parties, as we establish our future path. A large amount of finance will be required for the rapid advancement of this technology, but the rewards for the environment and people will be even greater, as electricity will be available to all at the ‘point of use’, irrespective of geographical position. We have also tried to steer away from the concept of a ‘free electricity machine’ and to concentrate upon the ‘engine-less generator concept’, that Nikola Tesla tried to achieve in the past.


Whilst both concepts maybe applied to the Suxé generator, the free electricity machine is true if say, the control system and the electric motor takes 10amps@240volts and then the generator is producing say, 110amps@240volts, which yields some 100amps@240volts of free electricity over the input requirements and this could be considered free. However, if a diesel engine and a present day generator were costed correctly, then anything over the running cost to produce electricity could also be considered as ‘free energy’. Therefore, we prefer the term ‘engine-less generator’, which is a description, which more accurately describes our innovative technology. This new technology will require design copyrights and possibly, new patents, to establish this new generator technology and the uniqueness of many of its internal parts and any other spin-off technologies that may follow. The SRG technology was required to prove in one prototype, two essential features namely, (1) its ability to generate electricity in this novel manner, and (2) its ability to produce no-torque electrical generation. Therefore, in- light of this new technology development, this business plan has been written to reflect our carefully considered development phases, which are as follows:

• Basic technology development. • Advanced technology development. • Specific market development. • Spin-off technologies.

At this moment, Suxé Engineers have achieved the ‘basic technology development’ stage and require certain answers from the British Government, as to the Socio-Economic implications of this SRG technology introduction. This information will then allow Suxé International to confirm its direction for the second year in its business plan. To this end, meetings will be arranged with the United Kingdom’s Department of Trade and Industry, to enable us to move our technology forward.


2.0 Suxé SRG Technology Overview. The idea of the Suxé Generator technology came from a misconception by a Suxé Engineer, who tried to guess how far generation technology had advanced. However, the reality was far cruder than he imagined and so a new technology was born in the early days of March 2003. Suxé International has taken this idea and developed it into a new technology, which has grown into a new electrical generation theory. Many prototype variants were considered for development and discarded, as a better understanding of the new technology principles were developed. Indeed, this new Suxé Generation technology has caused some re-examination of the present electrical generation theory that have been established for centuries. The Suxé generator now bears little resemblance to the established technology, which still has the existing basic idea of rotating a rotor with generated magnetic fields, within the copper coil cage of the laminated soft-iron, or nickel- iron stator, which it then develops generated power. The external excitation control system is used to provide the level of control over the generation process with regard to the power demanded and in- line with operating safety protocols for the generator. The new Suxé generation technology does not work like the established generator design model and has essentially reversed this design, by developing the magnetic field in the stator and using the rotor to remove the power developed. If this were not radical enough, the generation of the magnetic fields in the stator, has allowed the precise magnetic injection process, which enables the Suxé generator to reduce the ‘rotational magnetic field drag and magnetic field distortion’ to a point where a motor can handle the load experienced. What does this mean? Well, this allows the Suxé generator to yield the maximum electrical output, without developing any rotational resistance, which it then follows that fossil fuel engines such as diesels are not required to turn the Suxé generator. Suxé Engineers then developed a specialist electric motor to turn the Suxé generator, using a little of the generated power to maintain the set speed in a proportional controlled feed-back system. This will require more power at the standing start, but proportionately less power to maintain the set speed, thereby saving energy. The Suxé electric motor is also a unique design and is a spin-off technology from the generator design.


As power is used from the generated electrical output for the excitation, it is then termed as a self-excited system and is a common-place practice in established generated systems. The overall Suxé Generator is a unique system, offering these essential main features:

• Self-Rotating System. • No-Torque Generation System. • Self-Excitation System. • Brushless Output Power System. • Self-monitoring and modification of output generated waveform. • Coil- less rotor design, for increased power output. • Operating at ambient temperatures. • Computer controlled and monitored. • Generation at any desired rotor speed. • Any voltage or current settings. • Dual power output, one being a priority over the other. • Computer controlled waveform shape, as required.

This is a unique design and will initiate a new industrial, commercial and domestic power revolution, which we have termed the ‘power revolution’, second only in importance to the World evolutionary process, as the industrial revolution.


3.0 Suxé SRG Product Development and Marketability. This section will examine the SRG product development and the perceived market for these products. 3.1 SRG Product Development. After the building of the prototype in the basic technology phase and it yielding enough information to demonstrate the new technology, the consideration of the second phase is now important. The second phase of development will address the following major points:

• The building of a final prototype model. • Mathematic modelling of the SRG technology. • Software interpretation for SRG waveform generation. • Material specification within the SRG generator. • Design enhancements for efficient operation and cost reductions. • Miniaturisation of the SRG technology. • Electronic control system design for low voltage, high current switching. • Microprocessor and microcontroller technologies for faster control. • Advanced output waveform control by a self-correcting monitoring program. • Three Phase and poly-phasing generation techniques. • DC generation techniques. • Single phase generation techniques. • Various waveform generation techniques. • 415volt and 33KV three phase generation processes. • Suxé SRG specialist motor development. • Brush- less output power removal technology. • Vacuum and climatic testing. • EMC testing and certification. • Product safety testing and certification. • NDT product testing. • Patent and design copyright protection.

The development process has been analysed to achieve the above goals in about twelve months, leading on to specific product development. This time period will assist third parties to ready the market-place to receive these products.


3.2 SRG Product Marketability. The market for the SRG is essentially everywhere! However, it would not be possible to market this product irresponsibly, as this would result in a de-stabilising effect on the World economies, to be more exact the G8 nations. The introduction of SRG technology to Third World economies would be less dramatic. Expected Socio-Economic Changes.

a) OPEC Nations .

The most immediate effect of the SRG technology introduction would be on the OPEC nations as the demand for petroleum products will fall sharply on an inverse curve to the Suxé generator usage.

b) Arab Nations .

The Arab Nations and consequently, the Muslim powerbase will reduce dramatically from its present oil-propped position, to one of secondary importance in World affairs.

c) Developed Nations .

Developed Nations will gain dramatically in the reduction of petroleum imports, although the United States will have more difficulty; being a significant oil producer and a highly developed Nation. A large industrial Nation such as the United Kingdom will have to phase the introduction of this Suxé technology, to prevent the wholesale slaughter of its share markets, as a significant number of the quoted companies are oil related, or industrially related to oil usage, or production. Power generation companies supplying the national grid, together with all service industries, including the old generator manufacturers, will of course go under. This will result in a turbulent time, whilst the technology change process takes place. The replacement industries probably will not require the labour shed from the old industries. Electric motor manufacturers will experience a massive increase in production, as will the motor car manufactures, after all who will want to drive his gas guzzling V8, when a Suxé generator/motor driven car can go as fast, or faster and never needs to be filled-up!! The gas and coal industries will also suffer a catastrophic reduction in sales.


d) The Environment. The World’s Environment will suddenly improve as the Suxé technology is introduced.

• Car pollution falling. • Transportational pollution falling. • Power Station generation pollution falling. • National grid unsightly pollution falling. • Contamination by petroleum products falling. • Third World cooking by gas and fossil fuels falling. e) Space Exploration.

The reliance on solar panels will end, as a miniature SRG unit can supply all on-board satellite and planetary surface rover power requirements.

f) People. Not only will the World be a better place to live, but leisure time will increase, assisted by cheap travel in cars, boats, trains, etc.

g) Industry. All industrial goods and products will become cheaper, due to reduced transportation costs and almost free electricity reducing the production cost.

h) Military. The military could improve stealth technologies with quiet helicopters, ships, hovercrafts, submarines and surveillance drones etc. It is not the intention of this business plan to cover all aspects of the effects derived from the introduction of Suxé technology and it is left to another report possibly by others, to more fully investigate this problem. However, the prevention of de-stabilizing the economies of developed nations would probably be best prevented, by a phased introduction of this technology. A possible timetable is set out overleaf :-


• Introducing the SRG technology to power generators two years ahead of industrial and domestic islanded systems.

• Motor cars slowly, over a twelve to eighteen month period.

• All other technology areas after two years.

To carry out this, or any other phased introduction, will require government support in the form of technology grants, to replace lost revenues. Discussions will be held with the relevant bodies to this end.


4.0 Prototype SRG Development ~ First Phase Development. 4.1 Basic Technology Development. This First Phase has now been completed. The prototype has undergone several revisions and its unique design has now yielded a machine that has proved that many of the Suxé engineering and technology claims are true. The prototype generator was expected to prove the new techno logy and to provide more information and knowledge, but more importantly to prove that:

• No torque generation is possible. • Power generation is possible from this design of generator. • Coil- less power output is possible from this rotor design. • Power Output Magnetic Interfacing is possible.

These aims were met and allowed Suxé Engineers to extrapolate further designs from the information so far gained, yielding a range of improvements that will allow the following design possibilities:

• Square wave generation. • Sine wave generation. • Triangular wave generation. • Domestic electrical generation (240volt~50Hz~100amps) • Commercial electrical generation (240volt~50Hz~200amps). • Industrial electrical generation (Three Phase 415volt s). • DC generation (24volt~100amps). • Miniaturisation of SRG technology. • 60Hz variants. • Brush- less output power removal. • High current removal system development. • Output waveform improvement by software. • Complete voltage/current generation control by software. • Material usage and size implications.

The prototype generator has now proven to be a fairly sophisticated, but a limited arrangement, in that it was based upon quadrature waveform generation and therefore, certain free-flowing software solutions were not possible in the test programs. Using the quadrature generation principle with a micro-controller control system, has prevented us from gaining the maximum research information possible. An improved, free-flowing control system design based upon a microprocessor, would have allowed greater control and program variants.


However, this control system design importance was not realised until the project was begun and the prototype was in production. Also time and financial constraints in the manufacturing and testing phases, has meant that certain important tests and modifications were unable to be carried out, resulting in a less dramatic first prototype than was first envisaged. This has meant that the prototype is no t as effective as anticipated, but we were able to prove the two essential points of a) electrical generation is possible and that, b) no-torque generation is possible; although only reduced torque generation was proven, because additional control circuits were left out and certain exotic materials, due to time and cost constraints. It is just a matter of refining the technology for the next prototype and building a more modular compuerised system. Suxé engineers have shown that this new technology is worthy of increased research time and funding, but more importantly, that it is a viable alternative to wind power. Suxé International is happy to continue with this ground-breaking research, but requires certain assurances from the Government, before ratifying the second phase of development. The future of this research in terms of finance and its ‘country base of operations’, is open for consideration by the board members, dependant upon the best offers made.


The initial test rig was arranged as follows:

This test rig was designed to prove only two main points, which are:

a) The generation of electricity. b) Generation of electricity with no-torque.


This has provided a lot of data which is presently being analysed and will be essential in the next design process and will further our understanding of this new technology. The prototype has been given a fairly sophisticated control system, which is based on a micro-controller technology (PIC), operating from a purely mathematical model and then translated to timing signals for stator node operation. However, this was originally dependant on a set rotational speed of 750 rpm, which was improved by a software and modification that now has resulted in an infinitely variable speed arrangement and self-modifying software program. Various dummy loads were used as a resistive load bank, that allowed us to switch- in various loads on to the generator output to draw more current, giving us time to assess the performance characteristics of the generator. Various thermocouples around the Suxé generator were used to measure the operating generator temperatures, the stator coils do run excessively hot the moment but this can be easily designed out by using different electro-magnetic coil wire and core material to ensure that it remains at the expected 25 degrees Celsius, or at the ambient temperature. Finally, the prototype unit has been removed and stored for posterity.


4.2 Operation Principles of the Suxé Generator. The Suxé Generator is unlike any previous generator design, as the normal stator and rotor are now reversed in principle. The established conventional generator will rotate a rotor, which is a spinning magnetic field of various polarities (i.e. north and south magnetic poles). With the stationary stator coils arranged on an iron core cage, the arrangement of these coils give the voltage output type required (i.e. three phases or single phase). Also existing generators are designed for distributive systems and therefore, are designed for outputs such as 6,600 volts and 33,000 volts are typical. The Suxé Generator has been designed principally, for islanded use and that means local UK voltages such as 240 volt single phase, or 415 volt three phase. The Suxé Generator uses the stator to inject precise magnetic fields into the rotor in certain designed patterns, usually based upon a quadrature control system, or a free-flowing design, but other more sophisticated control systems may need to be developed and used. The rotor is used to withdraw the power from the generator, which in the case of the prototype finally ends up at a commutator, which is comprised of two circular bus bars, which then are used to remove the power generated. In the later production designs, an output brushless system will be devised to make the product maintenance free, time and monetary constraints prevented this test procedure. In existing conventional generators the rotating rotor nodes and their magnetic fields, cause an interaction with the stator copper/iron cores, resulting in a magnetic field distortion and the net result is to cause a rotor drag to be experienced, this in turn requires increased torque to be applied to overcome this rotational resistance. Hence more power output equals more drag and this requires increased rotational torque. Two ways were introduced by Suxé Engineers to overcome this drag effect, but may not be expanded upon in this document. Another important design advantage for the Suxé Generator is the magnetic annular air gap, but this may not be expanded upon in this document. The rotor is a special design to allow air cooling and greater current removal, but this may not be expanded upon in this document. However, the Suxé generator is expected to run at ambient temperatures in the next prototype development. The brushless output design is unique and is called the Suxé Power Output Magnetic Interface (POMI), but may not be expanded upon in this document. The Suxé motor design is also unique, but may not be expanded upon in this document.


The Suxé generator benefits from improved magnetic efficiency and the reduction in the power required to excite the rotor coils. Another point to be considered and that is the heat problems experienced by existing generator technology, this is down the large amount of spurious magnetic fields which cause eddy currents to form and they adversely affect the magnetic process interaction, but worse still they generate heat, this then requires cooling processes to be added and thereby increased costs. The Suxé Generator has none of these problems, the magnetic injection technique is precise and is removed immediately its work is done, careful design will ensure that the operating electro-magnetic coils will have adequate time to cool down between switching operations. No spurious magnetic fields, means no eddy currents, which means no heat problems and therefore, greater efficiencies. The Suxé Generator represents a major technological advance in electrical generation.


5.0 Prototype SRG Development ~ Second Phase Development. 5.1 Advanced Technology Development. Suxé International is well aware that this technology introduction is going to pose a problem for the developed nations and therefore, we have taken the steps to talk to the British Government, through the Department of Trade and Industry and other interested International Agencies. The future for the furtherance of this technology in the United Kingdom, is therefore dependant on the outcome of these discussions . Suxé Engineers have detailed the next set of goals as the following:

• Mathematic modelling of the SRG technology. • Software interpretation for SRG waveform generation. • Material specification within the SRG generator. • Design enhancements for efficient operation and cost reductions. • Miniaturisation of the SRG technology. • Electronic control system design for low voltage, high current switching. • Microprocessor and microcontroller technologies for faster control. • Advanced output waveform control by a self-correcting monitoring program. • Three Phase and poly-phasing generation techniques. • DC generation techniques. • Single phase generation techniques. • Various waveform generation techniques. • 415volt and 33KV three phase generation processes. • Suxé SRG specialist motor development. • Brush- less output power removal technology. • Vacuum and climatic testing. • EMC testing and certification


6.0 Prototype SRG Development ~ Third Phase Development 6.1 Specific Market development.

NOT FULLY ANALYSED YET

7.0 Prototype SRG Development ~ Fourth Phase. 7.1 Spin-off Market Development.

NOT FULLY ANALYSED YET


8.0 Possible Financing Arrangements for Suxé International.

8.1 United Kingdom ~ DTI Technology Grants. It is possible that a funding arrangement from the DTI, under their innovation grant system may be applied for.

8.2 United States ~ DOE Technology Grants. It is possible that a funding arrangement from the DOE, under their technology grant system may be applied for.

8.3 Private Shareholding Funding Schemes. A private investor may be sought to help us bring this product to market.

8.4 Going Ahead Alone. Over a longer period of time it could be possible to ‘go it alone’, and therefore, maintain full control over the technology. Or indeed, if a lucrative offer was made by another government, then ‘upping sticks’ may be an attractive option.

8.5 Awards and Prizes.

The Amazing Randi has offered $1,000,000 for the ‘first free electricity machine’ and possibly other benefactors exist, although it is not sure we would satisfy all their requirements. However, if we can demonstrate that the SRG can generate 240vac / 6amps (min), then it would be possible to show the generator is able to sustain itself by providing 3amps for the rotating motor and 3amps for the control panel. Leaving any extra current to drive another load, say a light bulb, then this would look like ‘free electrical energy’, in reality it would have to be carefully analysed at a later development phase before we would market it as such. At this stage Suxé International would only market it, as a clean, engine-less generator system.


9.0 Business Structure for Suxé International.

Suxé International operates as a limited company. 9.1 Company Directors.

The company directors for Suxé International are: Trevor Smith ~ 80% Millard Alexander ~ 20%

9.2 Corporate Structure to be Implemented.


9.3 Corporate Objectives.


10.0 Three Years Financial Estimates.

10.1 Assumptions Made.

10.2 Year One ~ Basic Technology Development. 10.3 Year Two ~ Advanced Technology Development. 10.4 Year Three ~ Specific Market Development.

DEPENDANT ON TALKS WITH DTI AND OTHERS

Strange Electrical Generator

Documents

Transcript of Strange Electrical Generator