5. MISSION STATEMENT Our mission is to become a valued partner to our customers and to make significant contribution to preserving a sustainable environment and striving for a cleaner future, through use of advanced technology solutions and leveraging on our wide engineering experience and global network.

6. COMPANY ACTIVITIES Feniks Waste Management LTD has broad international experience in the design, engineering, procurement and construction of waste-to-alternative fuel plants, hospital waste, hazardous waste, anaerobic treatment facilities, providing all the technical and management skills needed to complete a project successfully.

8. (to produce Biogas from kitchen waste) BIOGAS DIGESTER

9. (to produce soil amendments from MSW organics) TUNNEL COMPOSTING

10. (Recycling MSW) MATERIAL RECOVERY FACILITY

11. GASIFICATION OF MSW

12. Integrated Hospital Waste Incineration Plant

13. Industrial Furnaces and Combustion System

14. Users: Kayaba, Suzuki, Hicom, Altum, Global Autotech, Seagate, Phillips, Matsushita Fabrication of Melting & Holding Furnaces

20. PLC and SCADA Process Control

23. SCADA System Control Topology

24. GLOBAL PRESENCE C ~ Installation Site A ~ Agent

25. Municipal Solid Waste Waste Separation & Material Recovery Facility Landfill Gasification System Anaerobic Digestion Of Wet Organics Power Generation Integrated MSW Treatment

28. Plastics, Glass, Paper Ferrous (fine and coarse) SRF (textile, paper) and others Inert (coarse) MS Wet Organics Temporary Stockpile Waste Sorting Technology Anaerobic Digestion Gasification Technology Recycling Line Waste Separation & Material Recovery Facility

29. Waste Sorting Technology

30. Unsorted Domestic Waste

31. Domestic Waste Bag Opener

32. Grapple Crane (hopper/bunker)

33. Drum Screen to remove wet organics from unsorted MSW Drum Screen

34. to recover pieces of plastics, cartons, non ferrous metals Hand Picking Station

35. Bins for recovered waste that can be recycled Hand Picking Station

36. Magnetic Separator to recover Ferrous material

37. Automatic Air Separation to recover light plastics, paper

38. Final fractions to be shredded to form Solid Recovered Fuel

39. Please click on the pictures to play video Shredder

40. Baled Plastics and Papers For Sale $$$$$

42. Wet Organics For Anaerobic Digestion

43. Treatment of MSW Wet Organics Onsite Anaerobic Phased Solids Digester & Power Generation System

47. Anaerobic Digestion Biological Process Bio Gas Organic Waste Undigested Solids & Water CH 4 + CO 2 Organic Matter M ethanol G enesis Acetogenesis Hydrolysis

48. Digester System Process Feed Stock Into System Agriculture Waste Organic Process Waste Seaweed Municipal Green Waste Gas Motor Electric Power to load Organic Soil Amendment Fluid Circulation Hydrolysis Tank Gasification Tank Methane Gas Fuel Heated Water System Output Nutrient Rich Irrigation Water Hot Water or Steam for Heating

49. Food Waste And Wet Organics from separated MSW Hammer Mill Mixer

50. Anaerobic Digestion Of MSW Wet Organics Reduction of methane emissions (greenhouse gas) to atmosphere Provides nutrient enriched effluent water for local irrigation

52. Gasification Technology

54. Gasification technology with flue gas cleaning Syngas (Alternative Fuel) from MSW

55. A Solid Recovered Fuel (SRF) is the fuel produced from solid waste. By using the highly precise CMTS-VSI waste sorting technology, the perishable wet materials with high contaminants and non-combustible materials are removed from the municipal solid waste. The remaining contents which are all combustible materials with high calorific value are shredded, dried, mixed with additives and pressed to become high quality SRF. The end product is dry and anti-mold and can be stored and transported easily. The average calorific values is about 12,500 – 17,500 kJ/kg (3,000 – 4,200 kcal/kg) and the burning point is around 250 – 270 °C. Solid Recovered Fuel

57. Pyrolysis Gasification Technology to reduce MSW (SRF) to ash with optional heat recovery for Power Generation

58. SYNGAS, Combustible gases, methane, complex hydrocarbons, hydrogen, and carbon monoxide Optional Heat Recovery For Power Generation Ash to be landfilled Products of Gasification

59. Steam Turbine Power Generation

60. Cleaning of flue gases from gasification process to meet EU Standard Optional : Flue gases containing CO 2 can be feed stock for Algae to produce Bio-diesel

61. Step 1: Flue Gas Cooling Flue Gas Cleaning Method Quencher

62. Step 2: Flue Gas Cleaning to remove dust and acidic gases Scrubber Flue Gas Cleaning Method

63. Step 3 : Dioxin Treatment Dioxin Filter Flue Gas Cleaning Method

64. Flue Gas Emission in accordance to EU Standard prior to discharge to atmosphere Continuous Emission Monitoring System Flue Gas Cleaning Method

66. In Collaboration With Southern Waste Management LANDFILL MANAGEMENT

67. Recovered Waste Materials Separated from Soil Cover Landfill On Site Waste Recovery

68. Recovered Waste Materials further processed in MRF to recover plastics, metals for sale Landfill Remediation Works

69. Asia Office Texas.U.S.A No.9, Jalan TPP 5/13, San Antonio 47100 Puchong, MALAYSIA Texas Tel. +6 03 - 80623686 Ms Lizette Odfalk Fax.+6 03 - 80623680 E.U. Office Koningstraat 99, 6651 KK Druten, The Netherlands Te. +31 487 514838 Fax. +31 487 515236 For More Information On Integrated MSW Treatment Technologies please visit website: www.cmtsproduct.com e-mail: sales@cmtsproduct.com