The CARACOL Waste to Energy System provides an efficient and sustainable solution for waste treatment through gasification technology. It can process a wide range of waste streams into synthetic gas and then into thermal and electrical energy with minimal emissions and residual ash. The system is available in both mobile and fixed configurations to meet various waste processing needs.
A better way to treat solid and liquid wastes is via robust technologies such as the Clark-CWTI-Evergreen Integrated Waste-to-Energy Conversion System (IWECS). IWECS provide an efficient means of reducing the volumes of municipal solid wastes (MSW) and sewage.
Waste to energy projects with reference to MSW, Sourabh Manuja, TERI, IndiaESD UNU-IAS
This lecture is part of the 2016 ProSPER.Net Young Researchers’ School on sustainable energy for transforming lives: availability, accessibility, affordability
We are the global distributor of LTC technology. We supply sustainable green energy solutions. In all our projects we use LTC technology to ensure that all new facilities are cost-efficient and meet or exceed the highest environmental standards. Our objective is to supply our clients with tailor-made patented LTC technology power plant solutions that convert waste into sustainable energy. We execute all projects successfully by using the extensive experience at our disposal. Renewable Energy, Power plants without pollution, New technology power plant, LTC- Low Temperature Conversion
A better way to treat solid and liquid wastes is via robust technologies such as the Clark-CWTI-Evergreen Integrated Waste-to-Energy Conversion System (IWECS). IWECS provide an efficient means of reducing the volumes of municipal solid wastes (MSW) and sewage.
Waste to energy projects with reference to MSW, Sourabh Manuja, TERI, IndiaESD UNU-IAS
This lecture is part of the 2016 ProSPER.Net Young Researchers’ School on sustainable energy for transforming lives: availability, accessibility, affordability
We are the global distributor of LTC technology. We supply sustainable green energy solutions. In all our projects we use LTC technology to ensure that all new facilities are cost-efficient and meet or exceed the highest environmental standards. Our objective is to supply our clients with tailor-made patented LTC technology power plant solutions that convert waste into sustainable energy. We execute all projects successfully by using the extensive experience at our disposal. Renewable Energy, Power plants without pollution, New technology power plant, LTC- Low Temperature Conversion
World Bank estimated, in 2025 the production of municipal solid waste will be 2.2 billion tones worldwide. With this amount, we are more and more polluting our own environment. Seven to eight percent of the total greenhouse gas emissions arise from continued landfilling. EfW (WtE) does not only decrease the volume of waste, it also protects natural resources like land and water. There is no additional need for landfills, where leakage can occur and pollute our tap water. It also protects air and climate because the regulations by law for EfW are more stringent than for coal fired power plants or any other industry. EfW plants decrease the greenhouse gases which come from landfill.
The Presentation cover all details related to Electricity Generation from Waste Material, Which is very good technlogy. In this we can find that, how we are creating this energy, and how we are using.
EWS has field-proven advanced waste management solutions, in mobile and fixed packages, and innovative waste-to-energy applications. Equipment ranges in size to meet the needs of large and small exploration and mining operators, and other resource based work force camps.
Green Buildings - innovative green technologies and case studiesctlachu
Innovative uses of solar energy : BIPV, Solar Forest, Solar powered street elements,- Innovative materials:
Phase changing materials, Light sensitive glass, Self cleansing glass- Integrated Use of Landscape :
Vertical Landscape, Green Wall, Green Roof. Case studies on Green buildings : CII building,Hyderabad,
Gurgaon Development Centre-Wipro Ltd. Gurgaon; Technopolis, Kolkata; Grundfos Pumps India Pvt Ltd,
Chennai; Olympia Technology Park, Chennai.
Middle East Construction Trends - GineersNow Engineering MagazineGineersNow
GineersNow Construction Leaders Magazine Issue No 001
Construction Leaders Magazine: Saudi Arabia Zahid Group Arabian Construction
Exclusive: Water and Electricity Crisis, Supplemental Power, Distributed Power Systems, Decentralized Power Generation in Africa, Dubai Technology Innovation, Trucks and Bus, Construction Equipment.
Special Feature Stories: BIM, Consultant, Contractor, Design, EPC, Finance, Heavy Equipment, Electro-mechanical, Machinery, Rental Equipment, HSE, EHS, Safety, Tools, Trucks, PMV, Construction, Civil Engineering, Mechanical, Electrical, Plumbing, MEP, EPC
Country Focus: United Arab Emirates, Saudi Arabia, Qatar, Bahrain, Kuwait, Oman, Jordan, Iraq, Iran, Turkey, Lebanon, Libya, Egypt.
More engineering stories at https://www.gineersnow.com/topics/magazines
International Refereed Journal of Engineering and Science (IRJES) is a peer reviewed online journal for professionals and researchers in the field of computer science. The main aim is to resolve emerging and outstanding problems revealed by recent social and technological change. IJRES provides the platform for the researchers to present and evaluate their work from both theoretical and technical aspects and to share their views.
World Bank estimated, in 2025 the production of municipal solid waste will be 2.2 billion tones worldwide. With this amount, we are more and more polluting our own environment. Seven to eight percent of the total greenhouse gas emissions arise from continued landfilling. EfW (WtE) does not only decrease the volume of waste, it also protects natural resources like land and water. There is no additional need for landfills, where leakage can occur and pollute our tap water. It also protects air and climate because the regulations by law for EfW are more stringent than for coal fired power plants or any other industry. EfW plants decrease the greenhouse gases which come from landfill.
The Presentation cover all details related to Electricity Generation from Waste Material, Which is very good technlogy. In this we can find that, how we are creating this energy, and how we are using.
EWS has field-proven advanced waste management solutions, in mobile and fixed packages, and innovative waste-to-energy applications. Equipment ranges in size to meet the needs of large and small exploration and mining operators, and other resource based work force camps.
Green Buildings - innovative green technologies and case studiesctlachu
Innovative uses of solar energy : BIPV, Solar Forest, Solar powered street elements,- Innovative materials:
Phase changing materials, Light sensitive glass, Self cleansing glass- Integrated Use of Landscape :
Vertical Landscape, Green Wall, Green Roof. Case studies on Green buildings : CII building,Hyderabad,
Gurgaon Development Centre-Wipro Ltd. Gurgaon; Technopolis, Kolkata; Grundfos Pumps India Pvt Ltd,
Chennai; Olympia Technology Park, Chennai.
Middle East Construction Trends - GineersNow Engineering MagazineGineersNow
GineersNow Construction Leaders Magazine Issue No 001
Construction Leaders Magazine: Saudi Arabia Zahid Group Arabian Construction
Exclusive: Water and Electricity Crisis, Supplemental Power, Distributed Power Systems, Decentralized Power Generation in Africa, Dubai Technology Innovation, Trucks and Bus, Construction Equipment.
Special Feature Stories: BIM, Consultant, Contractor, Design, EPC, Finance, Heavy Equipment, Electro-mechanical, Machinery, Rental Equipment, HSE, EHS, Safety, Tools, Trucks, PMV, Construction, Civil Engineering, Mechanical, Electrical, Plumbing, MEP, EPC
Country Focus: United Arab Emirates, Saudi Arabia, Qatar, Bahrain, Kuwait, Oman, Jordan, Iraq, Iran, Turkey, Lebanon, Libya, Egypt.
More engineering stories at https://www.gineersnow.com/topics/magazines
International Refereed Journal of Engineering and Science (IRJES) is a peer reviewed online journal for professionals and researchers in the field of computer science. The main aim is to resolve emerging and outstanding problems revealed by recent social and technological change. IJRES provides the platform for the researchers to present and evaluate their work from both theoretical and technical aspects and to share their views.
International Refereed Journal of Engineering and Science (IRJES)irjes
International Refereed Journal of Engineering and Science (IRJES) is a leading international journal for publication of new ideas, the state of the art research results and fundamental advances in all aspects of Engineering and Science. IRJES is a open access, peer reviewed international journal with a primary objective to provide the academic community and industry for the submission of half of original research and applications
Integrated green technologies for msw (mam ver.)mamdouh sabour
SA is facing a great challenges for waste management due to the fast demographic and industrial growth, which left the country with accumulative amount of generated waste that needs to be managed in the most cost-effective, sustainable and green.
Viable E waste treatment Incineration vs Non IncinerationRohit Shinde
Content:
What is Electronic Waste?
How these become E-Waste
Generation of E-waste by Countries
Why E-Waste a Problem?
Constituents of E-Waste
E-Waste Processing steps
Methods for E-Waste treatment
Incineration – Process Description, Types, Advantage and Disadvantage
Non-Incineration – Process Description, Types, Advantage and Disadvantage
Did you know?
Conclusion
1. from NATURE to TECHNOLOGY
CARACOL
Waste to Energy System
The Clean Planet
2. man
man is the only living being that produces waste
waste production
it is a process closely linked to the daily life of man
3. disposal
the principal solutions to waste disposal is storage (dumping site)
or incineration (incinerator plant)
DUMPING SITE
WASTE-TO-ENERGY PLANT
4. some data
World's daily waste production and type of disposal
the current world's municipal solid Waste MSW production is estimated in
5,2 million tons per day
waste in dumping sites or in open air Waste undergoing various type of treatment
90%
10%
5. waste treated with incinerator technology
Waste undergoing other type of treatment
composting, pyrolysis, gasification, plasma torch,
enzyme digestion, anaerobic decomposition, etc.
91%
9%
the current world's waste quantity treated is
520.000 tons per day
waste quantity classified by treatment typology
60%
15%
10%
15%
USAEurope
JapanOther
percentage of waste treatment plants location
some data
6. DUMPING SITE
Fine dusts and gas pollution NO to the construction
in urban areas
Limited use in time
Polluted leachate production,
groundwater and farmland
contamination
Malodorous substances
emissions
High preparation and
management costs
$$$
7. INCINERATOR PLANT
Fine dusts pollution Construction in urban
areas not recommended
High operating
costs
$$$$$$
High transport costs
$
High construction costs
$
NO small dimensionLandscape impact
(chimney height)
8. ?
is there a solution?
are there reliable and already functioning technologies that can be adopted
to prepare a better future for our sons while preserving our planet?
9. ? Energy production
and savings
Polluted leachate reduction,
groundwater and farmland
contamination reduction
Reusable material
recycling
Transport
reduction
Low landscape impact and
sustainable architectural
construction even in urban
areas
Dusts emission
reduction
an efficient system should aim at the
pursue of these objectives
Processed waste
reduction
Environmental
pollution reduction
Malodorous
substances
emissions reduction
Cost reduction and
economic advantages
$$$$$
10. CARACOL
Waste to Energy System
| Integrated waste collection and disposal system | collection points identification | disposal points identification | machine sizing in function of the daily load |
| gasification technology use as a clean waste destruction process | metallic and glass material recycling | very low atmospheric emissions |
| maximum 4% of residual ashes | complete reversibility of the place where it is installed | correct insertion architecture-environment |
| energy production as an added value | “total voracity” system |
Municipal solid waste – Pneumatics – Hospital wastes – Kitchen wastes – Urban green – Contaminated oil, Polypropylene and natural absorbents - Diesel filters from
cars, ships, locomotive and other various vehicles – Car oil filters – Plastics – Manufactured paper pulp/mix with other wastes – Some inflammable gases – Inflammable
liquids - Oxidizers/organic Peroxides – Sawdust, mud and ashes – Furniture's – Paint waste – Railways sleepers – Rubber polymers – Biomass – PVC tubes – Wood
waste – Animal wastes – Skin waste – Oils – Car fluff – Construction waste (wood, plastics, paint, packaging) – Excluded radioactive and explosives waste.
CARACOL Waste to Energy System uses the eppm ageppm ag gasification technology providing exceptional results.
The system has two configurations: mobile and fixed
THE WASTE IS TRANSFORMED IN SYNTHETIC GAS, SYNGAS, THEREFORE LITTERALY DEMATERIALIZED FOR ABOUT 96% OF
ITS TOTAL AND, ULTIMATELY, TRANSFORMED IN THERMIC AND ELECTRIC ENERGY.
THE WASTE TRANSFORMATION PRODUCES THE BENEFICIAL EFFECT OF LIGHTENING THE FISICAL AND CONTAMINATION LOAD
THAT THE PLANET WOULD HAVE HAD TO BEAR AND US TO SUFFER.
11. the digestive apparatus
the gasification process
synthetic process scheme
Primary cellPrimary cell
Each primary cell has an operative reception capacity from 7 to 60 ton/day and has the following characteristics:
Internal pressure: - 0,5 bar;Internal pressure: - 0,5 bar;
Temperature range: 350ºC – 480ºC – depending on the material treated;Temperature range: 350ºC – 480ºC – depending on the material treated;
Ashes: 3% - 5% - in function of the material treated;Ashes: 3% - 5% - in function of the material treated;
Oxidation time: 8h – 12h;Oxidation time: 8h – 12h;
Obviously the number of primary cells will be defined according to the requested dimensions of the plant; as an example, a system producing 300 kW with MSW
having a 10900 kJ/kg calorific power, will need 2 primary cells of 7 tons each one.
Secondary cellSecondary cell
After the primary cells treatment, the waste is transformed in syngas and sent to the secondary cell. The data in the secondary cell are the following:
Internal pressure: positive;Internal pressure: positive;
Temperature range: 800ºC – 1300ºC – depending on the material treated;Temperature range: 800ºC – 1300ºC – depending on the material treated;
Permanence time: 2,5” – 3,5”;Permanence time: 2,5” – 3,5”;
The syngas in exit from the secondary cell is sent to an heat exchanger/boiler for the production of vapor that will ultimately feed the turbine.
storage primary cell secondary cell boiler turbine
waste syngas hot air steamwaste
12. 14 ton/day
250 m2
200 ton/day
2.000 m2
300 ton/day
2.500 m2
400 ton/day
30 ton/day
300 m2
600 ton/day
4.000 m2
800 ton/day
1.000 ton/day
7.000 m2
100 ton/day
the dimension
the system can have various dimensions
in order to adapt to the most diverse requirements
the maximum dimension with a capacity of 365.000 ton/year is determined exclusively by logistical/managerial criteria and not by any other kind of limitation
14 ton /day > 30 ton/day
demountable (transportable) gasificator
30 ton /day > 1.000 ton/day
fixed gasificator
13. EPPM AG è impegnata da anni nel settore ambientale ed ha come
obiettivo primario il realizzo di sistemi tecnologici ad elevata resa e
compatibilità ambientale miranti alla produzione di energia pulita.
EPPM per un futuro e un ambiente pulito.
emission limits
synthetic emissions comparison eppm ageppm ag – EuropeEurope – BrazilBrazil
14. ashes use
CARACOL Waste to Energy System produces between 3% to 5% of inert ashes
these wastes can be reused in various compounds as inert/binding
asphalts Self - blockings CLS road
15. use of non-gasified materials
CARACOL Waste to Energy System selects automatically the metals and glass
the metals and glass are deposited on the cell's bottom and can be retrieved
glasscansmetals
16. from nature to technology
CARACOL
Waste to Energy System
17. CARACOLCARACOL Waste to Energy SystemWaste to Energy System
Lower
transport cost
Energy production
and savings
Reusable materials
recycled
Possible construction
in urban zone
Processed waste
reduced
Landscape impact
reduced
Continuous
process cycle
Small dust and gas
contaminants eliminated
Temporal use extended Leachate contaminating
the aquifer and agricultural
land eliminated
Diseases problems reduced Child labor
exploitation reduced
19. it moves slowly
it is a slow process
slowness consent the maximum control of the process
20. evolution has made him adapt to any environment
it can be located everywhere, even in the most extreme places
thanks to its versatility, composition modality and external “skin” (shell)
is capable to adapt to the most various conditions and environments
21. the shell can have various shades
the covering can be composed of different colorings
the material to use will adapt to any locations and environmental “camouflage”
22. the shell grows in the course of time
the complete system can be extended depending on the needs
23. produces a small quantity of residues
at the end of the waste treatment process, the processed waste output are the ashes.
Between 3% and 5%, but fundamentally, there will be completely inert.
24. the shell offers protection to the CARACOL (defense mechanism)
the system is predisposed in such a way to have a continuous cycle even in
the case of damages to the various parts
25. communication
the system enables an interexchange of information with the external
world, a direct communication with the citizens
@
26. carries out a continuous pilgrimage
it can be positioned where it is most appropriate
27. CARACOL Waste to Energy System
example of the space distribution
Gasification process area
Educational route
Material storage area
Technical area
Educational rooms
External space
28. the educational route
inside the CARACOL will be predisposed dedicated spaces for schools
in order for them to learn the transformation of the waste into energy
29. origin of the shape
The spiral The radials The possible
settlement
30. Turbine room
Management and control
Secondary cell
Primary cell
Temporary waste storage
Waste discharge access
fixed gasificator hypothesis
32. hypothesis demountable gasificator (transportable)
Waste storage area
Educational area
Management and control
Turbine room
Boiler
Secondary cell
Primary cell
+ Possible addition of a cell
Primary cell
+ Possible addition of a cell
33. the “shell” covering system can adapt, thanks to the natural colorings that is possible to obtain, in whatever environment and context
34. references
the system is already operative in various countries in the world
we list only a few of the major ones
| Alaska - USA, MSW & special waste, 2010, 100 ton/day | Tockwith – England, paint special/dangerous waste 2009 160 ton/day |
| llinois II – USA, MSW & special waste, 2007, 100 ton/day | Hankorage – Alaska, USA, MSW & special waste, 2006, 150 ton/day |
|Texas – USA, MSW & special waste, 2006, 200 ton/day | Illinois – USA, Blackbox Speriment, 2005, 50 ton/day | Kansas – USA, Biomass & MSW, 2005, 300 ton/day |
| Malaysia, MSW & special waste, 2004, 120 ton/day | Breegenz – Austria, Biomass & MSW, 2004, 80 ton/day |
| Barrow – Alaska - USA, MSW & special waste, 2001, 70 ton/day |
35. is committed in years to the environmental sector. His primary objective is the research, planning and realization of advanced technological
systems to resolve the problematic linked to the treatment and disposal of any kind and type of waste, with the consequent production of energy
(thermic and electric).
To date, the verifiable results achieved with the described technology, heartbeat of our
CARACOL Waste to Energy System, makes de it the more complete, sustainable and resolute instrument in the world, for the definitive
elimination of this planetary waste disposal problem.
CARACOL
Waste to Energy System
The Clean Planet
36. has always known how to conjugate the incomparable Italian creativity with a high professional profile. These extraordinary gifts has enabled him
to collect important international appreciation.
His precious contribution has been to conceive a form, or better said a “suit”, for our system, of an extraordinary efficiency, both for the plant's
functionality and architecture sustainability that it harmoniously manifest. Once again a success, capable of integrating masterfully also the
“philosophical” concept that has originated the form choice.
CARACOL
Waste to Energy System
The Clean Planet
37. during his 25 years Of Corporate Advisory activity (Advisory Services & Corporate Finance). He has matured a certain predilection for new
businesses and markets development, for itself and/or for his own clients. In particular, in the last twelve years, it has concentrated his attention
on the Waste to Energy systems, its profound technical comprehension and consequently diffusion on the market. This has meant to travel on
the 5 continents, meeting Public, Governmental and/or local Administrations, to submit them The technological solution to their problems, but
also to identify and plan, through feasibility studies, the most appropriate “operative model” to their different realities and, when necessary,
identify the consequent legislative path.
The gravity of the waste problem, the urgency to find a solution, the vastness of this specific “market”, the uniqueness and excellency of the
technology selected (the EPPM one), in this sector that can be defined has “newborn”, in addition to network and projects disseminated around
the world, makes the enormous experience of J.C.&P even more exceptional.
CARACOL
Waste to Energy System
The Clean Planet
39. from NATURE to TECHNOLOGY
CARACOL
Waste to Energy System
The Clean Planet
Jason Consulting & Partners
00186 Roma – Vicolo Savelli, 30
Tel./Fax (+39) 06 32651255 - www.jasonconsulting.com
Santino Iafrate - Mobile (+39) 347 6634850 - santinoiafrate@jasonconsulting.com
Loris Radoani – Mobile (+39) 328 8467038 - lorisradoani@jasonconsulting.com