12 th ISCMNS International Workshop on Anomalies in Hydrogen Loaded Metals

1. 12thISCMNS International Workshop on Anomalies in Hydrogen Loaded Metals _____________________________ “Road Map” for Developing Engineering Applications of LENR Technologies Professor Igor V. Goryachev

2. Possible LENR-based innovative technologies Generating ecologically clean and safe heat Generating ecologically clean and safe electricity Complete neutralizing radioactive waste and spent nuclear fuel Cheap and ecologically clean desalinating sea water Neutralizing war gases and toxic hazardous waste products Producing precious and rare metals out of cheaper materials Producing new special materials and alloys Using LENR-activating radiation for technical and medical needs

3. 100kW “CATfish” – water fueled water heating unit

5. Computer simulation of “CATfish” unit design

6. Expected technical characteristics of “CATfish” Dimensions 400 × 937 mm Mass (without water) ~ 150 kg Output thermal power 100 kW Input power of activating generator 1 kW AC Activating power supply 220 V, 50 Hz Water consumption 300 mg/day Duration of continuous operation 2 years Water temperature 380±200C Construction materials needed to manufacture one unit: Stainless steel 150 kg Quartz 1,65 kg Copper 3 kg Silver 0,45 kg Gold 10 g

7. Project parameters Total cost……………………………………………………€1,590,000 Term of fulfillment………………………………………20 months Stage 1: Creation and start up of demonstration unit Cost………..........................................................€550,000 Term…………………..............................................5 months Stage 2: Experimentation to achieve optimum parameters Cost…………….…………………………………………………460,000 Term…………………..............................................5 months Stage 3:Creation of a pilot commercial unit Cost………......................................................... €580,000 Term…………………............................................. 12 months

8. 5MW “E-SteamCAT” Power Unit

9. Technical Parameters of “E-SteamCAT” Power Unit Overall dimensions 3598 × 5000 mm Weight without water 16 t Output thermal power 25 MW Electrical output 5 MW Power of AC activating generator 62 kW Activating power supply 220 V, 50 Hz Mass of water 8.4 t Water consumption 64.8 g/day Period of continuous operation 1-2 years Temperature of steam produced 380 ±20 0С Steam pressure 16-20 atm Construction materials needed to manufacture one unit: Stainless steel 16 t Quartz 108 kg Copper 115 kg Silver 28 kg Gold120 g

10. Project parameters Total cost…………………………………………………………€7,710, 000 Term………………….……………………………………………38 months Stage 1: Creation and start up of demonstration unit Cost………….........................................................€ 620,000 Term……………………..............................................13 months Stage 2: Creation of a pilot commercial unit Cost………………………………………………………………… €5,700,000 Term………………….................................................22 months Stage 3: Testing the pilot unit Cost………........................................................... €1,390,000 Term……………………..............................................14 months

11. ETM-converter “PYRAMID”

12. Computer simulation of “PYRAMID” ETM-Converter design

13. Motionless version of “PYRAMID” ETM-converter

14. Technical parameters of EТМ-Converter “Pyramid” Dimensions: Height 750 (250)mm, Diameter 500 (440)mm Mass 80(100) kg Output power 50-80 (80-120) kW Output voltage up to 200 V DC (AC) output generated 250-400 A Speed of rotation of a crystal 100-150 rev./s (threshold min: 80 rev./s) Diameter of current thoroid chamber 160 mm The size of quartz crystal: Height х basement dimensions 170х170 х170mm2 Duration of continuous work before replacing crystal 5 years

15. Project parameters Total cost ……………………………………………………€1, 078, 500 Term................................................................24 months Stage 1: Creation and starting of a converter. Cost …………………………………………………………… €750, 000 Term............................................................... 18 months Stage 2: Converter Research. Cost…………………………………………………. …………€328, 500 Term.................................................................6 months

16. 10 MW “TIGER” Power ETM-Unit

17. 10 MW “TIGER” ETM-Unit 1—resonator, 2—body, 3 —water, 4 — quartz phase inverter, 5 — axial reactionary line of TOR, 6 — reactionary axial volume, 7— input channel of burning beam of magnetic monopoles.

18. Computer simulation of 10 MW “TIGER” ETM-Unit

19. Technical Parameters of “TIGER” ETM-power unit Dimensions Ø5948 × 800 mm Weight, without water ~16 t Maximum output power 10 MW Total AC power 8 resonators 800 kW Power supply of activating generator 220 V, 50 Hz Power of driving generator aux equipment 25 kW Mass of water 8 t Consumption of water 27 g/d Duration of continuous work 1-2 years Temperature of water/steam inside 300-320 °С Steam pressure 16-20 atm.  Construction materials needed to manufacture one unit: Stainless steel 16 t Quartz 108 kg Copper 115 kg Silver 28 kg Gold 120 g

20. Project parameters Total cost ………………………………………………………….€ 10,065,000 Term ………………………………………………………………….36 months Stage 1: Creation of a pilot 350-400kW “ТОRUS” Unit Cost.................................................................... € 930,000 Term.................................................................... 18 months Stage 2: Creation of 10 MW “TORUS” Unit Cost.................................................................... €7, 050,000 Term….................................................................. 12 months Stage 3: Bench test of “TORUS” Power Unit Cost...................................................................... € 2,085,000 Term...................................................................... 6 months

21. Technology “PTDRW” for LENR deactivation of Radioactive Waste(Plasma processing Radwaste+Transmutation Deactivating Radslag) Loading unit Pyrogas outlet Shaft Plasma torch Melting chamber Stopper Slag receiving box Hearth Shaft furnace with plasma heating

22. Pouring Radslag out of shaft furnace and converting it into granulas for further treatment in transmutation reactor Droplets of molten slag, d=5-7mm Radioactive granulas TM-Reactor Water Granulas of radslag

23. “TRIUMPH” Radwaste Deactivating ETM-Facility

25. Expected technical characteristics of PTDRW Unit • 250 кг/ч Capacity 250 kg/h (100,000 Cu/y) Temperature inside melting chamber 1500-16000C Electric power of plasma torches 2×100 kW Total electric power consumed 200 kW Specific power consumed 800-1000 kW-h/t Specific consumption of chemical reagents 25-30 kg/t Water consumption 50 l/h Degree of captured radionuclides (inside slag): for Cs137 90-93% for Co60 97-99% for U238 99-99.9% Total amount of melted radioactive slag to be processed in transmutation reactor up to 50 kg/h

26. Project parameters Total cost (without plasma unit)...................€5,700,000 Term (including plasma unit)………………..2 years 6 months Stage 1: Construction of installation and testing it with radioactive isotopes of small intensity Cost....................................................................... €2,700,000 Term........................................................................19 months Stage 2: Transmutation of radioactivity of 1 Curie Cost........................................................................€1,350,000 Term..........................................................................6 months Stage 3: Processing nuclear waste of over 1 Curie. Cost....................................................................... €1,650,000 Term.......................................................................... 5 months

27. Desalination ecologically safe DTR Unit based on implementation of ETM-generators • Beam TM-generator • Transmutation pipe • Walls of chamber plated with reflecting layer • Circulation pumps • Water pools

28. Beam Generator of Electromagnetic ETM-radiation

29. Main technical parametersof DTR desalination Unit Input electrical power 500-1000kW Productivity for potable water 1300-1500 m3/d Initial cost of potable water based on outside power supply 0.32-0.48 $/m3 (compare to technology based on reverse osmosis – 0.5-0.6 $/m3 Specific cost based on autonomus power supply (e.g. TOFRUS) 0.02-0.025 $/m3 Composition of exhaust product sand (no hazardous brine released back into the sea)

30. Project parameters Total cost ………………………………………………… 3,800,000 € Term ……………………………………………………….24 months Stage 1:Creation and start of a small DTR model Cost ………………………………………………………… 1,200,000 € Term ……………………………………………………… 15 months  Stage 2:Creation of full scale DTR unit Cost ……………………………………………………… 1,100,000 € Term ……………………………………………………… 5 months Stage 3: Desalinating sea water using reactionary chamber Cost ………………………………………………………. 1,500,000 € Term ………………………………………………………… 7 months

31. Distillating unit of lower capacity

32. Distillating unit of higher capacity

33. TSTR-system for transmuting poisonous materials and war gases into inert materials

34. Project parameters Total cost......................................................... …………€4,800, 000 Term……………………………………………………… …………… 2 years 8 months Stage 1: Manufacturing installation and testing it with poisonous materials at low concentrations Cost................................................................. …………€1,950,000 Term.......................................................................1year 7 months Stage 2: Transmutation of poisonous materials at high concentrations Cost ................................................................ …………€1,350,000 Term………………………………………………………………………. …6 months Stage 3: Transmutation of war gases and poisonous waste products Cost................................................................. ………..€1,500,000 Term............................................................................7 months

35. “ENIGMA” Unit for manufacturing stable isotopes

36. Technical characteristics ENIGMA apparatus is a transmutational source of stable isotopes The initial cheap materials used: aluminum, silicon, iron, vanadium oxides Productivity of the installation is 1.5 kg a year

37. Project parameters Total cost......................................................... €1,132,500 Term…….…………………………………………………………18 months Stage 1: Creation and starting of an installation Cost................................................................. €870,000 Term..................................................................12 months Stage 2: Study of features of installation, chemical and isotope research Cost................................................................. €262,500 Term………..……………………………………………………. 6 months

38. ETM ALC converter for manufacturing goldand special alloys

39. Main technical characteristics Reactor ALC is intended for manufacturing precious metals and valuable alloys, in particular: Gold and other precious metals out of initial cheap raw materials: Productivity for gold 150-200 kg /y Parameters of power supply UkV=30-80kV I=50-90A Gold-tungsten alloys can be produced using cheap initial reagents Such alloys can be used for designing and manufacturing apparatus and systems in which the materials used should be of high strength, heat-resistivity and anticorrosive properties in line with high plasticity

40. Project parameters Total cost...................................................... €4,350,000 Term.................................................................3 years Stage 1: Making of an installation. Cost............................................................... €3,000,000 Term...................................................................2 years Stage 2: Research of modes of operation Cost.............................................................. €1,350,000 Term...................................................................1year

41. XTR Xenon transmutational System

42. Major technical parameters The System is intended for producing xenon from cheap initial gases. Xenon is used for the medical purposes and it can be used in nanotechnologies. Productivity of the System is approximately 2 tons of xenon a year. Xenon is used for the medical purposes and it can be used in nanotechnologies.

43. Project parameters Total cost.………………………………………………………. €4 ,372,953 Term.….……………………………………………………………. 3 years Stage 1: Design of basic units of system. Manufacture of basic units Cost.…….…………………………………………………………. €2,400,000 Term.…..……………………………………………………………. 1 year Stage 2: Assembling of basic equipment. Testing a pilot System at operation Cost………….………………………………………………………… €750, 000 Term……….…………………………………………………………….1 year Stage 3: Start up of basic system. Investigation of modes of operation Cost…………………………………………………………………… €784, 998 Term……………………………………………………………………. 0.5 year

44. Implementing TM-generator for medical purposes BTMG is a source of pure TM-radiation. The basic implementatiomis treating such illnesses as: oncology, diabetes, AIDS, purulent surgery, all spinal lesions; cultivation of hair and teeth and rejuvenation

45. Beam generator of specific electromagnetic TM-radiation

46. Project parameters Total Cost ……..……………………………………………………€990 ,000 Term……….………………………………………………………….18 months Stage 1: Creation and start of TM-generator and TM-dosimeter Cost ……….………………………………………………………….€600 ,000 Term…….................................................................12 months Stage 2: Research of influence of TM-radiation on biological objects and radioactive isotopes Cost ……….…………………………………………………………..€390,000 Term........................................................................6 months