-
WASTE WATER AND SLUDGE DEPURATION
-
NOT-RECYCLABLE SOLID WASTE DISPOSAL
-
RECOVERY OF BIOMASSES
-
ENERGY SAVING AND ENVIRONMENTAL PROTECTION
-
CIRCULAR ECONOMY COMPLIANT
The aim of the project is the design, construction and sale of fixed and mobile modular technological systems with the function of:
a) purification and recovery of urban, agricultural and industrial wastewater, including marine wastes and unprotected minor watercourses, according to the most recent European biomass guidelines
b) use of the undifferentiated portion of the MSW for energy saving purposes
c) recovery of the contents of organic agricultural, industrial and urban waste mixed with sustainable raw materials to be used in the bio-industry
This class of plants is named MESSINGAS
Through the use of our plant technologies, we can have significant environmental and economic benefits:
-
overcoming the dilution, the pollution and the diversity of content in different waste streams with a prevalent organic base, recovering purified and organic water with a high added value for further use
-
Using plants for purification, treatment and production of electricity, heat and raw materials from biomass as more localized and with minimal environmental impact
-
Favouring the use as much as possible of zero kilometre of the undifferentiated portion of the RSU for the purpose of energy saving and environmental protection
CHARACTERISTICS AND ADVANTAGES
-
MESSINGAS technology is extremely flexible and allows installations of EVERY SIZE and type, even in MOBILE UNITS and NAVAL APPLICATIONS
-
The flexibility of MESSINGAS technology allows the RECOVERY even of SMALL QUANTITIES of dispersed, diversified and unexploited biomass, according to the European guidelines
-
MESSINGAS method allows the PURIFICATION of quantities of WATER, otherwise LOST, in line with the renewed principles of enhancement of this irreplaceable asset
-
A MESSINGAS plant has minimal environmental impact with EMISSIONS WIDELY LOWER THAN EC2010 / 75 / EU requirements
-
MESSINGAS plant is COMPLIANT with IMO-MARPOL – all. IV & V standards
-
MESSINGAS has a high level of SAFETY – low temperatures, no parts under pressure, no chemical process, no noise pollution, odor or harmful emissions
-
Thanks to its modularity, a MESSINGAS plant has LEAD TIME of realization and commissioning SHORTER THAN SIX MONTHS
How we operate
The technical / technological characteristics of our plants allow us to recycle the wastewater in a more immediate and direct way, with less environmental impact, for both human and agricultural-industrial use, in the face of the increasing level of crisis in water resources, which manifests itself more year in our country and beyond.
At the same time, but not second in importance, it is possible to use mixed waste streams, undifferentiated waste, organic waste, waste water, from urban, rural and industrial sources to generate the necessary energy for the process.
In urban areas, despite the widespread availability of sorting practices, the flows of mixed solid waste destined for landfill or for incineration still contain a large volume of biodegradable organic matter, which could be used as raw material to produce bio -energy and eliminate disposal costs.
Our systems can handle virtually all types of waste, except glass and metal, and in particular they can treat waste with a high organic content with maximum efficiency, effectively avoiding any harmful emissions into the atmosphere or the presence of hazardous effluents. Furthermore, they operate at low temperatures and in the absence of pressure.
The use of municipal solid waste and process products to generate the energy required for the wastewater treatment process makes the process substantially self-sufficient from an energy point of view, except in a short start-up phase. It is the basic process exothermic, so it generates heat without using commercial fossil fuels, with their environmental impact, both in terms of emissions of CO 2 budget.
The liquid waste is treated in a suitable complex that produces clean water on one side and organic residues on the other, ready for subsequent treatment or reuse.
-
PRODUCTION OF DRINKING WATER
-
SOLID AND CONTAMINATED WASTE DISPOSAL
-
POWER AND HEAT GENERATION (COGENERATION)
The aim of this application of our technology is to realize modular fixed and mobile plants with the scopeof:
a) to guarantee availability of water sources for human use in chronic and emergency uncomfortable situations
b) to turn mixed urban bio-waste into sustainable source of pure water and bio-energy
This model of plant is named MESSINGAS SOSwater
The capability to process any kind of wastewater of different origin, characteristics and pollution level, makes our system suitable for use in very critical situations, like, but not limited to:
-
Developing countries/regions
-
Remote/isolated communities
-
Natural disaster scenarios
-
Humanitarian emergency situations
CHARACTERISTICS AND ADVANTAGES
-
SOSwater MODULAR DESIGN concept and plug-in installation philosophy to fit individual requirement
-
SOSwater variable LAYOUT to accommodate EVERY SIZE and type of installation: MOBILE units, TEMPORARY set up, CONTAINERIZED applications, etc.
-
SOSwater facilitate QUICK REACTION TIME in EMERGENCY and EXTREME situations
-
SOSwater can treat ALL TYPE of liquid and solid waste
-
SOSwater no NEED external energy supply but WASTE FEEDSTOCK
-
HIGH LEVEL OF SAFETY – low temperature, no pressure, no chemical hazard, no bad smell, no dangerous exhaust
How we operate
The technical characteristics of SOSwater plants allow to treat wastewater of quite different nature and dilution level, turning them for immediate human use. The modular and plug-in concept facilitates to adapt to different situations and user volume, normally small, isolated or disadvantaged communities.
Our technology involves the use and treatment of contaminated waste streams, solid municipal waste (SMW), organic waste, waste water, from urban, rural and industrial sources, contributing to reduce the sanitary and pollution hazard in the area of intervention.
The process generates power and heat for auto-consumption and can support local network distribution as well, providing immediate improvement of basic quality of life.
TARGET REGIONS CRITICAL ISSUES


CENTRAL and SUB-SAHARIAN AFRICA
-
Surface water sources highly polluted
-
Lack of access to clean drinking water
-
Roughly 25% of population suffers from water stress
-
Many small scattered communities
-
Contamination, drought, or disruption in distribution
SOUTH EAST ASIA
-
Widespread use of open sewers
-
140 million people lack access to safe drinking water
-
Rapid urbanization threatens water security
-
Suffering from severe repetitive flooding
-
Marine and surface water pollution affecting agriculture
-
RECLAIM AND CLEANING OF WASTE DISPERSED AT SEA
-
FULL WASTE MANAGEMENT ON BOARD OF SHIPS
-
SHIP SERVICE WATER TREATMENT
The global ocean is the source of life on Earth. The impurity of the global ocean increases every year.
a) Waters are worldwide infested with poisonous waste and sewage that have become part of the human biological cycle
b) In our oceans, the presence of waste has reached a concentration of up to 290 billion fragments per square kilometer
Our technology wants to contribute to the purification of marine areas, whilst making ships more eco-friendly and less polluting
This model of plant is named MESSINGAS ship&sea
The capability to process any kind of solid waste and wastewater from different origin, characteristics and pollution level, makes our system suitable for use in most of shipping services, like, but not limited to:
-
Merchant ships
-
Passengers ships
-
Cruise ships
-
Service vessels
-
Navy
-
Humanitarian emergency vessels
CHARACTERISTICS AND ADVANTAGES
-
ship&sea variable layout, modular design concept and plug-in installation philosophy can fit EVERY SIZE and CLASS of vessels
-
ship&sea is compliant with with environmental code IMO-MARPOL-att. IV&V and EC2010/75/EU
-
ship&sea can be used as FIRST INTERVENTION waste and sanitation system during EMERGENCY situations
-
ship&sea can treat ALL TYPE of liquid and solid waste and does not need external energy supply but WASTE FEEDSTOCK
-
ship&sea not invasive installation on board nearby existing systems NO NEED TO DRY DOCK the vessel for the installation (partially even during cruising)
-
ship&sea may represent a secondary safe power generation system in case of shipwreck or unavailability of fuel supply
-
HIGH LEVEL OF SAFETY – low temperature, no pressure, no chemical hazard, no bad smell, no dangerous exhaust
How we operate
The technical characteristics of ship&sea plants allow to treat both the liquid and solid waste produced by the crew and passenger on board and the waste water generated during the ship operations.
In addition, a special intake facility collects the solid waste dispersed at sea, channeling the debris to the main solid waste system for treatment. The modular and plug-in concept facilitates to fit the intake tool and the main system different modules to each ship individual charachteristics.
The process used in our technology neutralizes as well any biologically contaminated waste streams, contributing to reduce the sanitary and pollution hazard in the area of intervention.
The process generates power and heat for auto-consumption and can be used for supporting additional services.
TARGET REGIONS CRITICAL ISSUES


MEDITERRANEAN SEA
-
Close sea surrounded by up to 350 millions people
-
Average of 12 thousand ships crossing per year
-
Up to one million waste particles per square km
-
Toxic substances polluting the marine habitat
OCEANS MAIN GARBAGE ISLANDS
-
Up to 10 million sqm total extension
-
More than 270 ktons of plastic dispersed in the oceans on a total of 2,43 Mtons of garbage
-
Up to one hundred thousand waste particles per square km
-
Toxic substances and waste particles entering the human food chain