Low temperature district heating using waste heat from biogas plant

• Autorzy: Cenian A. , Noch T.

Identyfikatory

DOI

10.24426/eco-energetics.v2i2.106

• Języki publikacji: EN

Abstrakty

EN

A biogas plant can be a source of waste-heat flows with different thermal parameters. Application of such flows in local, low-temperature district-heating networks is a very attractive option for highly efficient, energetically and economically, co-generation systems applying biogas as the primary energy source.

Słowa kluczowe

EN

low-temperature district-heating network; biogas installation; co-generation; energy efficiency

• Wydawca: Gdańska Szkoła Wyższa
• Czasopismo: Eco-Energetics : technologies, environment, law and economy
• Rocznik: 2019
• Tom: T. 2
• Strony: 19--28
• Opis fizyczny: Bibliogr. 9 poz., rys., tab.

Twórcy

autor

Cenian A.

• Instytut Maszyn Przepływowych PAN, Physical Aspects of Ecoenergy Department, Gdańsk

autor

Noch T.

• Gdańsk School of Higher Education, Faculty of Engineering Sciences

Bibliografia

• 1. Connolly, D., Lund, H., Mathiesen, B.V., Werner, S., Möller. B., Persson, U., Boermans T., Trier D., Østergaard P.A., Nielsen, S. (2014). Heat Roadmap Europe: Combining district heating with heat savings to decarbonise the EU energy system. Energy Policy, 65, 475–489.
• 2. Jensen, L.L., Trier, D., Brennenstuhl, M., Cozzini, M., Serrano, B.G.-U. (2016). Report D3.1 — Analysis of Network Layouts in Selected Urban Contexts, Fifth generation, low temperature, high exergy district heating and cooling networks (EU Project). Retrieved from: https://w4u0es9f4.wimuu.com/Download?id=file:33652100&s=-6552244369753625473.
• 3. Li, H., Svendsen, S., Gudmundsson, O., Kuosa, M., Rämä, M., Sipilä, K., Bevilacqua, C. (2017). Future low temperature district heating design guidebook: Final Report of IEA DHC Annex TS1. Low Temperature District Heating for Future Energy Systems. International Energy Agency.
• 4. Line, T. (2013). Ultra-lavtemperert nærvame. Stavanger (Norway): VVS-konferansen.
• 5. Lund, H., Werner, S., Wiltshire, R., Svendsen, S., Thorsen, J.E., Hvelplund, F., Vad M.B. (2014). 4th Generation District Heating (4GDH) Integrating smart thermal grids into future sustainable energy systems. Energy, 68, 1–11.
• 6. Marhauer-Nimb, D. (2018). Calculation tool. Utilization of surplus heat for DH, Energy Efficient Cities Conference, 17–18 Oct. 2018. Gdynia. Retrieved from: https://www.imp.gda.pl/ee_cities/en/prezentacje.pdf.
• 7. Olsen, P.K., Christiansen, C.H., Hofmeister, M., Svendsen S., Rosa A.D., Thorsen J.-E., Gudmundsson, O., Brand, M. (eds.). (2014). Guidelines for Low-Temperature District Heating A deliverable in the project financially supported by the Danish Energy Agency in the R&D programme EUDP (Energiteknologisk Udviklings og Demonstration Program):“EUDP 2010-II: Full-Scale Demonstration of Low-Temperature District Heating in Existing Buildings”.
• 8. Piechowski, L., Noch, T., Cenian, A. (2018). Waste heat from CHP in biogas plant utilization for local central heating. Eco-Energetics: technologies, environment, law and economy, 1, 89-96. DOI 10.24426/eco-energetics.v1i0.35.
• 9. Rämä, M., Sipilä, K. (eds.). (2016). ANNEX TS1: Low Temperature District Heating for Future Energy Systems — Subtask D: Case studies and demonstrations. Final subtask D report of the IEA DHC Annex TS1: Low Temperature District Heating for Future Energy Systems. Espoo (Finland): VTT Technical Research Center of Finland.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).