CNG/CBG production by cleaning and compression of gases with inert gas content. Using the eco-friendly fuel produced so, making diesel replacement.

CNG/CBG production by cleaning and compression of gases with inert gas content. Using the eco-friendly fuel produced so, making diesel replacement.

Project ID: HU09-0008-B1-2013

Projektgazda/Projekt Promoter

ÖKO flotta Korlátolt Felelősségű Társaság/ NR

Megvalósítási időszak/Implementation period


Hazai Projekt Partnerek/National Project Partner

Magyar Cukorgyártó és Forgalmazó Zártkörűen Működő Részvénytársaság; Magyar Gázüzemű Közlekedés Klaszter Egyesület

Donor Projekt Partner/Donor Project Partner


Összköltség / Total budget (EUR)

4025528 HUF/14204,40 EUR

EGT/Norvég támogatás összege / EEA/Norwegian Grant (EUR)

4025528 HUF/14204,40 EUR



During project implementation, we wish to perform contact-making travel and the preparation of a study/business plan.

The aim of the project is to visit two Norwegian partners at their manufacturing plants with the purpose of obtaining professional information, building up personal contacts, and, for the future, creating the frames of close cooperation (contractor and consultant partnership related to tender HU-09). It also includes the preparation of technical and engineering tasks and plans related to the linking of equipment manufactured and distributed by both partners and to the lining up of technologies, for the tender HU-09.
During the project, a 6-member Hungarian delegation would travel to Norway (Szendrei Lajos, Drimmer Péter, Domanovszky Henrik, Major Ferenc, Sipos János and Dr. Szterényi Sándor). From the Norwegian partners’ side, 4 persons would arrive in Hungary (names are still unknown).
Planned date of travel between 2 and 28 September; both partners are to be visited within one single trip.
         By air, from Budapest to Oslo 12:50-15:20.
       Pickup of hired car at the airport
       Arrival at the hotel near Raufoss 20:00.
        Personal talks, factory visit, technical checking, business lunch at Hexagon company (Raufoss) 10:00-17:00       
        Arrival in Oslo accommodation 19:30.
         In Oslo, between 10:00-17:00, negotiations, factory visit, technical checking, business lunch at Sargas company
         Arrival in Oslo hotel around 18:30
         Hand over the hired car at Oslo airport
         Travel to Budapest 08:00-10:20 direct flight

The Norwegian partners’ travel to Budapest to collect professional information and prepare analyses needed for planning of equipment projected to be purchased during the tender HU-09
Planned date of travel between 2 and 28 September
Coming from Oslo, arrival in Budapest 12:10
       Expert negotiations, business lunch participated by the ÖKO flotta Kft and its partners and the experts of the Norwegian partner
       The Norwegian partner’s arrival at the hotel 19:00
        With the Norwegian partner, visiting of planned investments and gas sources (Budapest, Kaposvár etc.) in Hungary 09:-17:00
        Discussions, checking up of experiences
        The Norwegian partner’s arrival at the hotel 19:00
The Norwegian partner’s departure back to Oslo by air 11:00

Preparation of study/business plan and technical expert’s plan
Title of the study: The environmental impact of the separation and the subsequent use for transport purposes of methane-containing gas (e.g. biogas, associated gas) in Hungary (authors: Domanovszky Henrik, Major Ferenc, Dr. Jánosházi László, Szendrei Lajos; preparation of the study will be financed as an expert's fee to be paid against invoice).

Outline of contents:
Among the basic tasks of the project to be established, the following ones are included:
- definition of components of the hydrocarbon source – being of non-conventional fossil natural gas origin – to be used for fuel purposes
- technological definition of the separation of harmful components
- definition of the technology needed for the separation of gas components utilizable for other purposes
- setting up of the technology to be used for the conditioning of methane contents suitable for fuel purposes
- formation of the technology for fuel delivery and storage
- definition of the vehicle fleet running on the alternative fuel
- and, of course, the implementation of all these points.

The environmental impact study will analyze environmental impacts of the listed points, showing the results of investment calculated by lifecycle, and, if any, its disadvantages. Weaknesses detectable in specific processes during the analysis, following the lifecycle-based analysis, can be reconsidered, in order to ensure that we can produce maximum impact achievable during the project in both energy efficiency and air quality improvement, and, ultimately, with the aim to improve the environmental health condition of the society.