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Biopolinex Sp. z o. o. is a company whose activities are related to energy efficiency, rational use of energy in accordance with the principles of sustainable development, and investments in renewable energy sources
CONTACT FORM
Firma Biopolinex zarejestrowana jest w Krajowym Rejestrze Sądowym pod numerem 0000345851;
REGON: 060566982; NIP: 9462595328; kapitał zakładowy: 100 000,00 PLN opłacony w całości.
GALERIA
Offer inquiry nr 01/2018 "Design and implementation of elements for the construction of a biogas plant prototype."
For download:Offer form | Inquiry
Announcement: We would like to kindly inform you that as part of the selection procedure for designing and making elements for the construction of the prototype of the biogas plant - announcement in competitiveness database No. 1106011, the contractor was selected: "KONSMET" Grzegorz Pryszcz ul. Koncertowa 5A / 28 20-843 Lublin NIP: 7121600719. The offer received 30.04.2018 Value of the offer: PLN 780,000
Offer inquiry nr 02/2019 "Design and implementation of the elements of devices for hydrodynamic disintegration and disintegration of low-temperature biomass components."
For download: Offer form | Inquiry
Announcement: We would like to kindly inform you that as part of the selection procedure for designing and making elements of hydrodynamic disintegration devices and low-temperature disintegration of biomass components (announcement in competitiveness database No. 1195614), the contractor was selected: "PROPOS" Spółka z o.o., ul. Wyżynna 29/24, NIP: 9462230331. The offer was received on 17/09/2019. Total value of the offer: PLN 330,000 net
INQUIRIES ABOUT OFFERS
ABOUT THE PROJECT
"Development of technologies for the preparation of substrates used in methane co-fermentation by disintegration methods"
Under Measure 4.1 of the Intelligent Development Operational Program 2014-2020 co-financed by the European Regional Development Fund. Contract number: POIR.04.01.02-00-0022 / 17-00 The project is implemented by a consortium whose members are: 1. Gdańsk University of Technology - leader of the consortium 2. Warsaw University of Technology 3. Institute of Nuclear Chemistry and Technology 4. Biopolinex Sp. z o.o.
The project will be implemented from 01/01/2018 to 31/12/2020
The goal of the project is to develop and implement a complete technological line for the conditioning of substrates from agri-food processing using hydrodynamic and low-temperature disintegration in an innovative hybrid system. So far, these processes have been separately used to treat excess sludge generated in sewage treatment plants. The proposed technology is dedicated to both implementation in agricultural biogas plants and sewage treatment plants (municipal biogas plants). Increasing the bioavailability of methane co-fermentation substrates will increase biogas production, improve the rheological properties of digestate, improve the efficiency of sludge dewatering, and reduce the amount of digestate that requires further development. Improvement of energy balance and profitability of biogas plants will be achieved through the use of disintegration technology. Disintegration of substrates also has an impact on the quality of the sludge liquid formed in the dewatering process, which affects the approach associated with its further treatment.
The issue of digestate leachate purification and nitrogen and phosphorus recovery in the form of struvite supplements the knowledge necessary for the user of the proposed technology. Disintegration, fermentation and leachate purification studies will be carried out on
a laboratory scale, and then verified on a full scale in a prototype system. Ultimately, the mobile disintegration node can be used as a test product in large facilities or as a product for direct installation in smaller facilities. At each stage, the system will be comprehensively analyzed and optimized using a computer model, and the choice of solutions will be determined by meeting the technological, energy and economic criteria. The simulation model supplemented with environmental analysis will create an advanced assessment tool that is new in both agricultural and municipal biogas plants.
"Development of technologies for the preparation of substrates used in methane co-fermentation by disintegration methods"