Our Partners:
AWECT (Amsterdam Waste Environmental Consultancy Technology)
Awect is the leading company in high efficiency waste to energy technology. Awect can play a role in every step of the way in the transition to optimal waste management, from masterplanning to operation of a WtE facility and all steps in between.
AWECT can have multiple roles in the development of a WtE project, be it co-owner in the development phase or a pure technology consultant & engineer /operator.
BLUE PHOENIX (formerly INASHCO)
Blue Phoenix recycles ash and extract ferrous and nonferrous metals, while producing a final clean mineral for reuse such as aggregates. As the world’s largest ash processor, they achieve operational excellence through their proven processes, professional teams and the highest commitment to health, safety and the environment.
Our Partners:
AWECT (Amsterdam Waste Environmental Consultancy Technology)
Awect is the leading company in high efficiency waste to energy technology. Awect can play a role in every step of the way in the transition to optimal waste management, from masterplanning to operation of a WtE facility and all steps in between.
AWECT can have multiple roles in the development of a WtE project, be it co-owner in the development phase or a pure technology consultant & engineer /operator.
BLUE PHOENIX (formerly INASHCO)
Blue Phoenix recycles ash and extract ferrous and nonferrous metals, while producing a final clean mineral for reuse such as aggregates. As the world’s largest ash processor, they achieve operational excellence through their proven processes, professional teams and the highest commitment to health, safety and the environment.
Waste to Energy & Recovery Company - Vietnam
Full Concept
Facility
Underwriting the Vietnam guidelines of 491/2018/ QĐ-TTg from 7th of May 2018 the project will be designed as a fully integrated solid waste management facility to address the management of the entire life cycle of waste from generation to final disposal, including prevention, mitigation, sorting, collection, reuse, recycling and to protect human health, protect the environment.
Waste To Energy
Facility
The High Efficiency Incineration Technology, which was developed by AEB Amsterdam, is the most efficient in the world. The plant burns municipal- and industrial- solid waste at high temperatures (1200 C) to generate heat. The heat makes steam, which drives turbines to generate electricity.
It can generate 614Kwh of electricity from 1 ton waste (@ LHV of 8 MJ/Kg).
The emissions levels can be as low as 40% of EU directive emissions levels, making it very clean and partly renewable energy. The availability of the plant is proven to be over 92%.
The leftover materials, such as bottom ashes, can be re-used or disposed in a safeway. The mass reduction of this process is more than 95%.
The technology should be evaluated on availability, efficiency and greenhouse gas emissions.
CO2 Capturing &
Rainwater Harvesting
Material Recovery
Facility
The project will have a separate Material Recovery Facility (MRF) – processing bulky waste, electronic/glass waste and other non-sorted (industrial) non-hazardous waste with high tech sorting and selection equipment for recovery materials for recycling, whereas residue waste can move as RDF into the WtE plant or sold to the cement Industry.
Based on today’s waste analysis the bulk incineration of fresh waste is the most sensible processing method, but with changing characteristic and collection methods the MRF can contribute sensibly to Recovery and Recycling materials. Moreover with our Sustainable Landfill Reclamation this MRF helps the sorting and selection of landfill recovered waste, which will take out the valuable waste / materials and produce Refuse Derived Fuel input for the WtE facility or to the Power / Cement industry as partial coal replacement.
From the WtE facility we will covert the bottom ashes to re-usable resources for construction and road works as well as re-usable minerals and metals.
Environmental Awareness Training
We will work with the specialist technology provider to make CO2 capturing economically viable. Besides using the CO2 for a possible green house facility on site, the CO2 captured could be used for cooling-systems, fire-extinguishers, beverages etc..
We expect that with the technology rushing ahead on a green economy this also will become soon viable
The facility it self will be design in a way that the rainwater, will be harvested, rather than allowing it to run off. This harvesting of rainwater can be used for washing the waste delivery trucks, watering the facilities greeneries, etc.
Being so environmental conscious we believe we have to go one step further and contribute to the society more than just taking care of their rubbish. We believe that with opening the facility to the pubis with an Education and Information Center, we can contribute to an awareness building towards a Circular Economy.
Cooperation with local and International Universities will contribute to a cleaner surrounding and environment.
Re-use of Steam
In Europe most excessive steam from the WtE facilities are used for city heating.
Avoiding those infrastructural complicated solution, excessive heat can also be used in SE Asia, 1) internally to dry the highly humid solid waste delivered on site, and/or 2) in direct supply solutions to specialized industries in a nearby IZ.
This will improve the financial efficiency while reducing the operation efficiency slightly, but will avoid heat-exchange through cooling towers.
Waste Collection Transport
We will work closely with he authorities to bring in specialist and experienced partnership to cooperate on the optimization of municipal solid waste (MSW) collection and transportation.
Generally, in a city different waste sources scatter throughout the city in heterogeneous way that increase waste collection and transportation cost in the waste management system.
Through the push to source separation the collection of MSW becomes one of the major concerns in the MSW management system design.