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Analysis of institutional authors

Martin-Girela, IsabelCorresponding AuthorAguado, Pedro LuisAuthorCurt, Maria DoloresAuthor

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December 3, 2025
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Proof-of-concept of a hollow biofilm photobioreactor using engine exhaust gases

Publicated to: Algal Research-Biomass Biofuels and Bioproducts. 92 104416- - 2025-12-01 92(), DOI: 10.1016/j.algal.2025.104416

Authors:

Fernández, J; Martín-Girela, I; Gamonal, A; Aguado, PL; Curt, MD
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Affiliations

Univ Politecn Madrid UPM, Sch Agr Food & Biosyst Engn ETSIAAB, Dept Agr Prod, Av Puerta Hierro 2, Madrid 28040, Spain - Author

Abstract

The aim of this work was to study the performance of a perfused biofilm system based on hollow biofilm photobioreactors (HB-PBR) at a pilot plant scale using engine exhaust gases over a year. Biomass productivity, rate of biofilm growth, biofilm composition and tightness against CO2-enriched air leakage were assessed in a pilot plant of fifteen HB-PBR panels (90 m2 biofilm surface area in all) inside a polycarbonate greenhouse. A mixture of four microalgae (Chlorella sp., Scenedesmus sp., Chlamydomonas sp. and Ankistrodesmus sp.) was used as a starter medium for biofilm growth. Mean biomass productivity over a year of continuous operation of the pilot plant amounted to 3.07 g center dot m-2 center dot day-1 for an indoor mean PAR irradiance of 16.85 mol center dot m-2 center dot day-1, considering the footprint of the system. The rate of biofilm growth, assessed as the slope of the linear regression function between monthly mean vertical biomass productivity and monthly mean vertical PAR irradiance, was 0.1802 g center dot mol-1 over a year. Biofilm composition varied with the time but overall, Chlorella sp. was the dominant species. Tests of tightness proved that engine exhaust gases can be safety supplied into the HB-PBR inner chamber for biofilm growth without leakage to greenhouse ambient air. Finally, considerations for integrating HB-PBRs with carbon emitting industries were made.
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Keywords

Attached cultivation technologyBiofilmBiomass productivityCo2Exhaust gasesFlue-gasFresh-water algaeLightMicroalgaePhotobioreactorPilot plantProductivityRemoval

Quality index

Bibliometric impact. Analysis of the contribution and dissemination channel

The work has been published in the journal Algal Research-Biomass Biofuels and Bioproducts due to its progression and the good impact it has achieved in recent years, according to the agency WoS (JCR), it has become a reference in its field. In the year of publication of the work, 2025, it was in position 36/177, thus managing to position itself as a Q1 (Primer Cuartil), in the category Biotechnology & Applied Microbiology.

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Impact and social visibility

It is essential to present evidence supporting full alignment with institutional principles and guidelines on Open Science and the Conservation and Dissemination of Intellectual Heritage. A clear example of this is:

  • Assignment of a Handle/URN as an identifier within the deposit in the Institutional Repository: https://oa.upm.es/92713/

As a result of the publication of the work in the institutional repository, statistical usage data has been obtained that reflects its impact. In terms of dissemination, we can state that, as of

  • Views: 56
  • Downloads: 7
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Leadership analysis of institutional authors

There is a significant leadership presence as some of the institution’s authors appear as the first or last signer, detailed as follows: First Author (Fernandez, Jesus) and Last Author (CURT FERNANDEZ DE LA MORA, M. DOLORES).

the author responsible for correspondence tasks has been MARTÍN GIRELA, MARIA ISABEL.

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Project objectives

La aportación persigue los siguientes objetivos: analizar el rendimiento de un sistema de biofilm perfundido basado en fotobiorreactores huecos (HB-PBR) a escala piloto utilizando gases de escape de motores durante un año; evaluar la productividad de biomasa, la tasa de crecimiento del biofilm y su composición en un piloto con quince paneles HB-PBR y 90 m² de superficie; determinar la relación entre la productividad vertical de biomasa y la irradiancia PAR media mensual; caracterizar la composición del biofilm, destacando la dominancia de Chlorella sp.; verificar la estanqueidad del sistema frente a fugas de aire enriquecido en CO2; y considerar la integración de HB-PBRs con industrias emisoras de carbono.
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Most relevant results

Los resultados más relevantes del estudio demuestran la viabilidad del sistema de fotobiorreactores de biofilm hueco (HB-PBR) para el uso de gases de escape de motores en una planta piloto durante un año. Se observó una productividad media de biomasa de 3.07 g·m⁻²·día⁻¹ bajo una irradiancia PAR media de 16.85 mol·m⁻²·día⁻¹. La tasa de crecimiento del biofilm, determinada por la pendiente de la regresión lineal entre la productividad vertical mensual y la irradiancia PAR mensual, fue de 0.1802 g·mol⁻¹. La composición del biofilm varió temporalmente, predominando Chlorella sp. Las pruebas de estanqueidad confirmaron la ausencia de fugas de CO2 enriquecido hacia el ambiente del invernadero.
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Awards linked to the item

This work was partially financed with European funds from the Regional Development Programme through the Spanish Ministry of Science and Innovation (Project Innpacto IPT-120000), and the Agro-Energy Group of the Universidad Politecnica de Madrid (GA-UPM), Spain. Financial support from UPM Project REM222029MDCF is also gratefully acknowledged.
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