This document describes a proposed nano mercury power generation system. It would use mercury's properties and a system of pipes, electrodes, and a motor/alternator to generate electricity through a steam process without the need for fuel. A prototype 100W system is presented with components like a DC motor, mercury storage chambers, and tungsten electrodes. Mercury would be cycled through the system to produce steam that drives the alternator, generating pollution-free power. The document outlines the working principles and potential applications of small to large-scale mercury power plants.

1. NANO MERCURY POWER
GENERATION

2. CONTENT
 INTRODUCTION
 SOURCE OF ENERGY
 METHEODOLOGY
 ADVANTAGES
 APPLICATIONS

3. INTRODUCTION
 APPLICATIONS
 AVAILABILITY
 PROPERTIES
 HUMAN EFFECTS

4. APPLICATIONS
 LABORATORY : barometer & manometer
 MEDICAL : thermometer &skin
ointment
 FARMING : insecticides & rat killer
 ELECTRICAL : switch gear,bulbs &
rectifiers
 HAZARDS
 GOLD REFYING

5. AVAILABILITY
 First found in Egypt around 1500 BCE
 It occur freely in nature & cyclic process
 Mostly available in CINNABAR ORE at Spain, Russia nearly 8.00
tons /year
 Mercury available due to break down of rocks, wind & major amount
due to human activities
 PH value 5-7
 In form of metal & liquid

6. EFFECTS
 Genetic disorder
 Damage of brain function
 Allergic reactions
 Negative reproductive
 Vision problems muscle problems e.t.c.,

7. PROPERTIES
 symbol : Hg (HYDRARGYRUM) i.e., LIQUID SILVER
 Toxic in nature even though used in medical appli
 In liquid at room temperature i.e., 28.5 C (83 F)
 Silver white in colour
 High density & low vapor pressure

8. SPEACIALITIY
 Dose not required fuel to generate electricity.
(Fuel
less)
 Dose not creates any sound. (sound less)
 Dose not generates any pollution. ( Pollution less)
 Dose not required any man power to operate the
plant.
 Very low maintenance servicing on required.
 Plant size can be making 3kw onwards
for
Independent used as captive power plant.
 Ideal for commercial power plant business and
can
be making 0.5MW to 10000MW.
 This power plant never leakage mercury in the
atmosphere.

9. COMPONENTS
 DC MOTOR
 AC ALTERNATOR
 TUNGSTEN
 ELECTRODES
 BATTERY
 VALVE SWITCHES
 RECTIFIER
 PRESSURE GAUGE

10. PROTOTYPE
WORKING MODEL OF
100 WATTS:
ASSEMBLY OF NANO
MERCURY POWER PLANT

11. DC MOTOR 12 VOLTS 300 WATTS
Mercury Chargeing Chamber
MERCURY STORAGE CHAMBER
SIDE VIEW MERCURY CHARGEING
CHAMBER

12. Pipe diameter 11cmx30cm
=2nos. 11cmx 20cm =1,
Bottom plate size is 80cmx
20cm x15cm Hollow box
type, thickness is 10mm
plate.
Mercury need as per 2.85
Litter/stroke multiply with
Density of Mercury.
2.85/1000x13600=38.76kg.
(34.5kg=1 Flask). The plant
size is 80cmx20cmx75cm

13. PROTOTYPE DESCRIPTION
 CAPACITY 100w
 VOLTAGE 14 v

 CURRENT 7.5 Amps
 SIZE 400mm*200mm*1600mm ( l*b*h)

14. PRINCIPLE OF WORKING
 power gTotal power generate=
120x8.384=1005.99watts.
 eneration /stroke =(1006X30/3600= 8.384watts/
stroke
 Total power generate= 120x8.384=1005.99watts.

15. WORKING MODEL
MERCURY STEAM THERMAL POWER PLANT COAL FIRED

16. POWER GENERATED
P=h*Q*g*k*d/1000
p=power in watts (1006w)
h= head of discharge in meter (100)
Q=Quantity of discharge in meter(0.096)
g=Gravity of Earth (9.81)
k= Efficiency (0.8)
d=Density Kg/m^3 (13500/100)

17. NATURAL SOURCES OF MERCURY
 volcanoes, are responsible for approximately half of
atmo mercury
 65% from stationary combustion of which coal-fired spheric
mercury
 40% of U.S. mercury emissions in 1999
 11% from goldproduction
 THE THREE LARGEST POINT SOURCES FOR
MERCURY EMISSIONS:
 largest gold mines.
 6.8% from non-ferrous metal production
 3.0% from waste disposal
 6.4% from cement production

18. EFFECTS
 3.0% from caustic soda
production.
 1.4% from pig iron and
steel production.
 1.1% from mercury
production, mainly for
batteries.
 2.0% from other
sources.
 fluorescent bulbs
 Products containing
mercury include: auto
parts