The SER technology can significantly change the operation and emission of coal fired power plants, and it can also improve their adjudication too. An SER power plant will be much more efficient; will be able to produce more energy with the use of the same amount of coal quantity.
2. Mission of SMARTii team
Create and Improve Technologies
Analyze and develop the improvements in the systems
using TRIZ (www.smartii.net)
Change the World by solving the Biggest problems
Actual challenge
to Save the Coal Fired Power Plants – because the Coal
reserves is enough more than 400 years
re-invent & Develop the Steam Engines
246 years after 1st
Steam Engine
3. Highlights
I. Business Section
The Pain
Stated Objectives
The Solution
Target Users
Project Roadmap
Business
246 years after 1st
Steam Engine
II.Technical section
Proof of physical concept
Measured data & Graphs
Experimental results &
photo
Compare 2 Carnot cycle
working fields
4. The Pain
Coal Fired Power Plants gives the 20% of the total CO2
Emissions
Low Efficiency of Steam Engines Steam-turbine: max=30%
Policy wants to limit the operation of Coal Fired Power
Stations & 72GW will close in U.S.
The Steam Engine is a 246 years old technology, using
almost unchanged
Conversion to Zero emission makes it uncompetitive the price of
generated electricity
246 years after 1st
Steam Engine
5. Stated objectives
Increase the Efficiency of Steam Engines
Increase profitability
Decrease the CO2 Emission of Steam Engines
Decrease the volume of used water
Easily applicable on working Power Plants
246 years after 1st
Steam Engine
6. The Solution
SER technology
Efficiency increasable to ~50%
Coal consume decrease by 40%
ROI of SER technology less than 5years
Not need water to operation of turbine
246 years after 1st
Steam Engine
7. Project Roadmap
246 years after 1st
Steam Engine
1. Coal Fired
Power
Plants
2. Nuclear
Power
Plants
Trucks, Ships, Locomotives
3.Transportation
Applied
research &
Conception
model
8 months4 months
Fundamental
research
18 months
Prototype
Development
SER
licence
8. 1st phase – Fundamental research
Activities:
• R&D - Research & Finalize the SER basic
materials
• Prepare:
– Feasibility Study
– Business Plan
– Prototype Development Plan
• Timeframe: 4 months
246 years after 1st
Steam Engine
9. 2nd phase - Applied research
Proof-of-Concept project:
1. Make an experiment serial with a system which
consist different engines
A) traditional steam engine | B) diesel motor | C) SER
steam engine
2. connect them one by one to the same 50kW output
electric power generator
3. Feed them same calorific value of fuel and
4. Measure the output values
• Timeframe: 8 months
246 years after 1st
Steam Engine
10. 3rd phase – Prototype Development
Plan and build a prototype of 1st SER technology installed
1MW capacity steam engine.
Test & measure in workshop
Validate the measure & data with independent accredited
company like TÜV, SGS.
Test & measure in real service environment, e.g. connect to a
local micro grid to supply a small village with electricity.
Project output: Market ready prototype & tested technology
Timeframe: 18 months
246 years after 1st
Steam Engine
11. Demonstration
Market driven demonstration project:
–Reconstruct a traditional Coal Fired Power Plant or
–Supply a Truck with SER engine or
–Supply a Locomotive with SER engine or
–Supply a Ship with SER engine or …
246 years after 1st
Steam Engine
12. Applications scope – Target users
What will happen if the SER technology proven works?
It will be start the Revolution of Steam Engines:
Revolution of Coal Fired Power Plants ~6.000
Revolution of Nuclear Power Plants – few 100
Revolution of Steam Locomotives ~10.000
Revolution of Steam Ships
246 years after 1st
Steam Engine
13. Value proposition
Coal Fired Power Plant with installed SER:
The output power will double or
The used coal will decrease 40%
Water consumption decrease down to 50%
Profitability rise up from ~10% to ~30%
Installation cost of SER technology will return 5 years
246 years after 1st
Steam Engine
14. Business for Investor
1. Investment: 3.600.000€
result: SER, an outstanding & profitable technology for
users
2. Potential clients: ~6.000 coal fired power plants
3. Income: sale licenses
246 years after 1st
Steam Engine
15. U.S. coal plants income in 2008
246 years after 1st
Steam Engine
17. How we can prove & demonstrate the SER simply?
1. How does work a Steam Engine? The steam
pressure increasing/working in a closed, heated
space.
2. Compare, what happens with the water or SER
materials in same closed space!
3. We fill a 24 liters cylinder 1st water, 2nd SER
materials, and heat up to 553°K (=280°C)
4. The measured pressure in the cylinder:
Psteam= 45bar vs. PSER= 120bar
246 years after 1st
Steam Engine
19. Compare the Carnot Workfields
246 years after 1st
Steam Engine
We pre-calculated
that, SER Carnot
working field size
would be double
than traditional
steam engine.
P
V
Carnot Cycle
working field
steam
Carnot
Cycle
working
field of SER
20. Measurement of Proof-of-physical idea
246 years after 1st
Steam Engine
The pressure higher
Pressure run up faster
Coal usage lower
Efficiency ~50%
The Carnot working field appr.
double than traditional steam engine
SER technology experimental results:
21. Would be our Partner in this
Revolution ?
Visit our website: www.steamenginerevolution.com
Send email to us: peter@steamenginerevolution.com
246 years after 1st
Steam Engine
Editor's Notes
Kondenzációs erőműben T min 120 C
A llegjobbhatásfok 30%
Vízgőtelítési nyomása és hőmérséklete