Geoengineering - Climate Change Mitigation

Design Desk Inc.

Liquid Nitrogen Garbage Processing System

The following design system is a garbage "recycling" system that uses liquid Nitrogen to "freeze shatter" garbage and recycle it's components into structural bricks for building houses....

In the current conditions encountered with massive wildfires damaging forest and the inclined cost of stick build wood structures replacement... using a recycling system, then electrified by free energy, is a rational path to reduce the cost of housing with inclined fire and structural integrity safety systems.

Currently we separate garbage and recycling then collect the recyclable plastic / glass / and paper using fossil fuels to collect the material. Spending $0.01 to collect a unit density value of $0.000001 will cause a recycling company to go broke.... Fuel less recycling ( collection and processing ), then makes the effort a profitable endeavor allowing increased number of facilities to then be installed from the monetary gain of the

salable "end product" ie... structural engineered bricks / joist / rafters etc... Though cryogenic processing for recycling is nothing new the addition of fuel less generators to power the process makes the effort cost effective.

With "peak oil" looming the collection of urban garbage is a serious situation..... in economic failures, the removal of trash / garbage, becomes a paramount problem to prevent environmental "run away effects" regarding wide spread pandemics / disease / and potable water contamination.

The following link then a fuel less electric garbage truck is then to be used in tandem with the design system below. The fuel less garbage truck then does not require a battery to operate...... listed at The power plant for the Liquid Nitrogen garbage processing system then listed at

The generator and garbage truck used in tandem allows the public to recycle with "ZERO EMISSIONS" cost effective. The system, including the collection of the refuse, will then be able to yield a salable building structural product to reduce the harvesting of trees that ... convert / sequester Carbon Dioxide (CO2) and increases the habitat stability for wildlife.

Parts List

1. load conveyor belt system

2. geiger counter / radiation detection system actuates the "reject" drop gate to then refuse contaminated garbage

3. lamp

4. ventilation evacuation and warm air injection - warm air injection plenum along the ceiling of the feed conveyors numbers 76, 77, 78

5. air flow duct (electrically grounded)

6. Nitrogen (N2) high flow intake / prevents Nitrogen from escaping the system

7. air distillation and gas stratification system - yields the collection gas from the garbage inert / non flammable

8. liquid N2 injection control / pump control electronics

9. insulate grounded liquid N2 flow manifold

10. liquid N2 injection manifold

11. freeze tumbler sealed bearing race

12.  Main N2 shatter tumbler gas evacuation system

13. main bearing  "shatter tumbler"  lubrication low flash point with lubrication fittings to maintain

14. liquid N2 injection "main injection for the "shatter tumbler" contains hydraulic slam hammer to prevent stuck garbage

15. central heating ventilation air conditioning (h.v.a.c.) system maintain operating temperature within the system to

      allow / prevent lock up due to temperature as the N2 is cold

16. centrifuge to separate metals from plastic - evacuated by ultra high speed vacuum the centrifuge then with internal stir brushes

17. high speed vacuum

18. metal and plastic shatter flow pipe with internal rotating brush * electrically grounded flow pipe with external electrical insulation

19.  freeze tumble internal ribs allows the garbage to ride the tumbler speed to drop the frozen trash from height causing it to fracture

20. h.v.a.c. external air intake

21. hydraulic fluid pressure lines primary drive for the rotation of the freeze tumblers (freeze tumblers also with electric motor drive systems)

22. magnetic brush conveyor also inducing static electrical charge to the plastic shatter causing conveyor brush

      adhesion (system electrically grounded redundantly)

23. pipe internal "brush" electric drive motor

24. pipe internal "brush" electric drive motor

25. pipe internal brush

26. injection and evacuation ( water / air / co2 / as per required to inert the gas within the stratifier tank) water flow system evacuates

      the base of the tank "organic waste" to number 26 then injecting into the laser ash tower via number 28 and number 24

27. air compression air compressor systems - injects air into the tank to stir

28.  air flow and waste pumping encasement

29. ultra high vacuum and magnetic "brush stir system" intermittently induced magnetism to allow the vacuum system

      to "clean the brushes" when the electromagnetic system upon the brush conveyor is then disengaged

30. incinerator "laser tower" gas evacuation system directs "flu" gas to subsequent gas processing - zero environmental emission as the

      air remix system then is returned to the environment only with slight thermal temperature difference - free energy allows for the function

      cost effective

31. Carbon dioxide injection gas line

32. rotating waste distributor (like a coffee roaster stir system)

33. internal waste distributor rotates gated drop

34. carbon dioxide laser system heats a metal grate that vibrates like a mining "hopper"

35. high temperature vibrator bounces with reducing orifice to limit size of the drop ash

36. high temperature ash vibrator control / hydraulics and insulated solid metal linkage system

37. access stairs

38. blow down containment tanks - used if excessive incinerator internal pressure exceeds tolerance

39. evacuation pumping connects to the air stratification and air remix system in number 57

40. water tank water level send

41. bio solids stratification tank tank base internal stir brush out force high pressure water jets

42. water intake

43. water pump system

44. base brush variable speed hydraulic drive rotation bi-directional capacity

45. internal tank base brush control system hydraulic pressure switching to control speed and direction of the base brush

46. heavy bio sludge intake

47. air / gas dispersal rotating "wheel"

48. air injection bubbler

49.  water fin propeller down force vector

50. bio sludge level send

51. hydraulic fluid pressure pumping and control systems electronic connection to system control helm

52. main shatter tumbler electric drive motor system - rotates the shatter tumbler

53. main electric clutch hydro static

54. hydro-static automatic gear selection transmission and drive gear assembly

55. shatter tumbler internal "ribs" allows the system to dump and re-dump the garbage into the shatter breakers until the particle size is

      correct to exit the tumbler upon the conveyor

56. main shatter tumbler

57. gas flow control system room connects to the isolation gas stratifier to cause safe inert handling of liberated waste gas that could

      become combustible so that the processes are only carried out with inert percentiles

58. flow pipe ( hot air injected) contains spin brush to stir the plastic and metal particle

59. electrostatic / electromagnetic rotating brushes

60. electrostatic / electromagnetic rotating raker

61. low temperature garbage "shatter" hammers -the shatter hammers rotate at variable rates of rotation to pulverize the N2 garbage

62. hydraulic driven piston garbage "pusher" prevents garbage from getting stuck in the drop chute entering the shatter tumbler

63. radioactive contamination removal conveyor

64. piston connected lift plate decompresses the ash

65. spinning out load ash distributor plate directs ash to the auger number 66

66. out load auger

67. bio sludge out load conveyor

68. fire suppression system injects fire suppressant into the laser chamber

69. hydraulic piston and connection rod assembly to the ash lift plate

70. water tank

71. main water tank control system and water pump

72. water spray tray "encased" to clean the bio lift conveyor that off loads the bio sludge

73. high pressure water jet manifold

74. bio sludge auger loads to the vertical tray conveyor to dump into the laser tower to then incinerate the bio-sludge to ash

75. off load conveyor

76. load conveyor with drag raker that flex

77. load conveyor with drag raker that flex

78. load conveyor with drag raker that flex

79. conveyor clean system ( high pressure water injection system)

80. systems processing room - contains final metal / plastic separation / ash processing / continual metal slag production / plastic extrusion

81. hydraulic fluid pressure compression fittings - provides hydraulic fluid pressure to all system functions that require hydraulic fluid pressure

82. air craft beacon lamp

83. lightning suppression halo and mounting pole / environmental electrical ground

84. shatter tumbler gas control system - evacuates and cycle the gas within the shatter tumbler for safe operation

85. shatter tumbler gas control injection pipe

86. processing room h.v.a.c. system for environmental air

87. processing rooms system h.v.a.c. ( slag electric arc furnace ventilation - cycles to the gas stratification room  for exhaust control)

88. processing room system h.v.a.c. ( final float wash separator ventilation and particle dryer exhaust)

89. final plastic separator slurry pump

90. water holding tank

91. water filtration with self cleaning filter - ejects collected material to processes

92. plastic dryer

93. auger drive hydraulics control system logic electronics to control processing room functions of all components including the h.v.a.c. systems

94. ash removal auger injects char to the plastic encapsulation system - off loads the vertical laser tower  incinerator

95. auger intake guide chute / contains water injection system

96. final plastic metal separator

97. processing control room conveyor hydraulic sub - block hydraulic fluid pressure connection block for the plastics dryer off load conveyor

98. plastic off loads to 105 and the shattered metal to conveyor number 99 dumps to the arc furnace and subsequent metal slag processing

99. metal off load conveyor

100. roller conveyor

101. electric arc furnace feed conveyor

102. electric arc furnace

103. final billet / slag production of trash amalgam then used for structural components in laminate composites

104. off load conveyor and cooling system with process waste gas  h.v.a.c. ventilation

105.  plastics extruder / plastic processing to form multitude of component product "shape" sheet / pipe / slag / foam / brick

106. plastics tooling cutting and or composite unification systems

* Note - all systems components then electrically grounded with safety sensors

* Note - then occupiable spaces then fitted with fire suppression and gas detection systems to cause alarm if internal atmospheric

             conditions stray from safe levels

* Note - roller brush pipes then also use CO2 injection to prevent metal powder from causing an explosion hazard then igniting from static

             electricity the encasement pipe then rated at explosion proof capacity "end system unit encasements" also rated explosion proof capacity