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Topic: SABANA
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Publication ranking (quartiles, terciles)
Article count: 62
| Q1 | 0 |
| Q2 | 0 |
| Q3 | 0 |
| Q4 | 0 |
| Unknown | 62 |
| T1 | 0 |
| T2 | 0 |
| T3 | 0 |
| Unknown | 62 |
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Publications for topic "SABANA" sorted by first author
A
| , and , CONTRIBUCIÓN DE LAS MICROALGAS AL DESARROLLO DE LA BIOECONOMÍA, CAJAMAR, 2018 |
| , , , , , , and , Effect of pulsed electric field treatment on enzymatic hydrolysis of proteins of Scenedesmus almeriensis (2019), in: Algal Research, 43 |
[DOI] |
| , , , , and , Application of solar energy to seawater desalination in a pilot system based on vacuum multi-effect membrane distillation (2020), in: Applied Energy, 258 |
[DOI] |
| , , and , Performance increase of membrane distillation pilot scale modules operating in vacuum-enhanced air-gap configuration (2020), in: Desalination, 475 |
[DOI] |
| , , and , Assessment of a pilot system for seawater desalination based on vacuum multi-effect membrane distillation with enhanced heat recovery (2018), in: Desalination, 443(110-121) |
[DOI] |
B
| , , , and , Evaluation of photosynthetic light integration by microalgae in a pilot-scale raceway reactor (2019), in: Bioresource Technology, 280(404-411) |
[DOI] |
| , , , , , and , Variations of culture parameters in a pilot-scale thin-layer reactor and their influence on the performance of Scenedesmus almeriensis culture (2019), in: Bioresource Technology Reports, 6(190-197) |
[DOI] |
| , , , and , Analysis of mass transfer capacity in raceway reactors (2018), in: Algal Research, 35(91-97) |
[DOI] |
| , , and , A new approach for detection and quantification of microalgae in industrial-scale microalgal cultures (2018), in: Applied Microbiology and Biotechnology |
[DOI] |
C
| , , , and , Optimisation of Scenedesmus almeriensis production using pig slurry as the sole nutrient source (2022), in: Algal Research, 61 |
[DOI] |
D
| , and , Fibonacci-type tubular photobioreactor for the production of microalgae (2019), in: Process Biochemistry, 86(1-8) |
[DOI] |
F
| , and , Analysis of productivity in raceway photobioreactor using computational fluid dynamics particle tracking coupled to a dynamic photosynthesis model (2021), in: Bioresource Technology, 334 |
[DOI] |
| , and , Productivity analysis in tubular photobioreactors using a dynamic photosynthesis model coupled to computational fluid dynamics particle tracking (2022), in: Bioresource Technology, 344 |
[DOI] |
| , , , and , Monoalgal and mixed algal cultures discrimination by using an artificial neural network (2019), in: Algal Research, 38 |
[DOI] |
G
| , , , , , , , and , Comparative evaluation of piggery wastewater treatment in algal-bacterial photobioreactors under indoor and outdoor conditions (2017), in: Bioresource Technology, 245(483-490) |
[DOI] |
| , , and , How to combine CO2 abatement and starch production in Chlorella vulgaris (2018), in: Algal Research, 32(270-279) |
[DOI] |
| , , and , Biomass estimation of an industrial raceway photobioreactor using an extended Kalman filter and a dynamic model for microalgae production (2019), in: Algal Research, 37(103-114) |
[DOI] |
| , , and , Microalgae research worldwide (2018), in: Algal Research, 35(50-60) |
[DOI] |
| , , and , OPTIMIZATION OF A NEW CULTURE MEDIUM FOR THE LARGE-SCALE PRODUCTION OF PROTEIN-RICH ARTHROSPIRA PLATENSIS (OSCILLATORIALES, CYANOPHYCEAE) (2021), in: Journal of Phycology, 57 |
[DOI] |
| , , , and , Valorization of Microalgae and Energy Resources, chapter 4, intechopen, 2020 |
[DOI] |
| , and , Modelado y control de la producci´on de microalgas en fotobiorreactores industriales (2021), in: Revista iberoamericana de Automática e Informática industrial, 18(1-18) |
[DOI] |
H
| , , , , , and , Utilisation of the marine microalgae Nannochloropsis sp. and Tetraselmis sp. as innovative ingredients in the formulation of wheat tortillas (2021), in: Algal Research, 58 |
[DOI] |
| , , and , Sustainable production of microalgae in raceways: Nutrients and water management as key factors influencing environmental impacts (2020), in: Journal of Cleaner Production, 287 |
[DOI] |
J
| , , , , and , Pilot-scale outdoor production of Scenedesmus sp. in raceways using flue gases and centrate from anaerobic digestion as the sole culture medium (2018), in: Bioresource Technology, 262(1-8) |
[DOI] |
| , , , , , , and , Evaluation of native microalgae from Tunisia using the pulse‑amplitude‑modulation measurement of chlorophyll fluorescence and a performance study in semi‑continuous mode for biofuel production (2019), in: Biotechnology for Biofuels |
[DOI] |
| , , and , Utilization of centrate from urban wastewater plants for the production of Scenedesmus sp. in a raceway-simulating reactor (2018), in: Journal of Environmental Management, 211(112-124) |
[DOI] |
L
| , , , , and , Effect of microalgae incorporation on the physicochemical, nutritional, and sensorial properties of an innovative broccoli soup (2019), in: LWT - Food Science and Technology, 111(167-174) |
[DOI] |
| , and , Bioactive peptides and carbohydrates from seaweed for food applications: Natural occurrence, isolation, purification, and identification (2020), in: Algal Research, 48 |
[DOI] |
| , , and , Spirulina for the food and functional food industries: A review (2020), in: Food Research International, 137 |
[DOI] |
| , , , , , , and , Potential of the microalgae Nannochloropsis and Tetraselmis for being used as innovative ingredients in baked goods (2019), in: LWT - Food Science and Technology, 115 |
[DOI] |
| , , , , and , Consumer Attitudes towards Microalgae Production and Microalgae-Based Agricultural Products: The Cases of Almería (Spain) and Livorno (Italy) (2021), in: ChemEngineering, 5(27) |
[DOI] |
| , , , , , , , and , Consumer knowledge and attitudes towards microalgae as food: The case of Spain (2021), in: Algal Research, 54 |
[DOI] |
| , , , and , Development of an efficient and sustainable energy storage system by hybridization of compressed air and biogas technologies (BIO-CAES) (2020), in: Energy Conversion and Management, 210 |
[DOI] |
M
| , , , , , and , Engineering strategies for the enhancement of Nannochloropsis gaditana outdoor production: Influence of the CO2 flow rate on the culture performance in tubular photobioreactors (2019), in: Process Biochemistry, 76(171-177) |
[DOI] |
| , , , and , Annual production of microalgae in wastewater using pilot-scale thin-layer cascade photobioreactors (2021), in: Journal of Applied Phycology, 33(3861–3871) |
[DOI] |
| , , , and , Year-long production of Scenedesmus almeriensis in pilot-scale raceway and thin-layer cascade photobioreactors (2020), in: Algal Research, 51 |
[DOI] |
| , , , and , Microalgae based wastewater treatment coupled to the production of high value agricultural products: Current needs and challenges (2021), in: Chesmosphere |
[DOI] |
| , , , , , and , Year-long evaluation of microalgae production in wastewater using pilot-scale raceway photobioreactors: Assessment of biomass productivity and nutrient recovery capacity (2021), in: Algal Research, 60 |
[DOI] |
| , , , , , , and , Potential of the cyanobacteria Anabaena sp. and Dolichospermum sp. for being produced using wastewater or pig slurry: Validation using pilot-scale raceway reactors (2021), in: Algal Research, 60 |
[DOI] |
| , , , , , and , Improvement of wastewater treatment capacity using the microalga Scenedesmus sp. and membrane bioreactors (2021), in: Algal Research:60 |
[DOI] |
N
| , , , and , Biostimulant Potential of Scenedesmus obliquus Grown in Brewery Wastewater (2020), in: molecules |
[DOI] |
P
| , , , and , Application of Predictive Feedforward Compensator to Microalgae Production in a Raceway Reactor: A Simulation Study (2018), in: energies |
[DOI] |
| , , , and , Selection of biomass supply for a gasification process in a solar thermal hybrid plant for the production of electricity (2019), in: Industrial Crops & Products, 137(339-346) |
[DOI] |
| , , and , Effect of microalgae hydrolysate foliar application (Arthrospira platensis and Scenedesmus sp.) on Petunia x hybrida growth (2018), in: Journal of Applied Phycology |
[DOI] |
R
| , , , , , , , and , Growth, biostimulant and biopesticide activity of the MACC-1 Chlorella strain cultivated outdoors in inorganic medium and wastewater (2021), in: Algal Research, 53 |
[DOI] |
| , , , , , and , Optimal processing of greenhouse crop residues to use as energy and CO2 sources (2019), in: Industrial Crops & Products, 137(662-671) |
| , , , , and , Overall development of a bioprocess for the outdoor production of Nannochloropsis gaditana for aquaculture (2018), in: Aquaculture Research(165-176) |
[DOI] |
| , , and , Utilization of centrate for the outdoor production of marine microalgae at the pilot-scale in raceway photobioreactors (2018), in: Journal of Environmental Management, 228 |
[DOI] |
| , , and , Utilization of centrate for the outdoor production of marine microalgae at pilot-scale in flat-panel photobioreactors (2018), in: Journal of Biotechnology, 284(102-114) |
[DOI] |
| , , and , Outdoor production of microalgae biomass at pilot-scale in seawater using centrate as the nutrient source (2017), in: Algal Research, 25(538-548) |
[DOI] |
| , , , and , Production of a biocrust-cyanobacteria strain (Nostoc commune) for large-scale restoration of dryland soils (2019), in: Journal of Applied Phycology |
[DOI] |
S
| , , , , , , , , , and , Effects of dietary use of two lipid extracts from the microalga Nannochloropsis gaditana (Lubian, 1982) alone and in combination on growth and muscle composition in juvenile gilthead seabream, Sparus aurata (2021), in: Alga Research, 53 |
[DOI] |
| , , , , and , Role of Microalgae in the Recovery of Nutrients from Pig Manure (2021), in: Processes, 9(203) |
[DOI] |
| , , , and , Modelling of photosynthesis, respiration, and nutrient yield coefficients in Scenedemus almeriensis culture as a function of nitrogen and phosphorus (2021), in: Applied Microbiology and Biotechnology, 105(7487–7503) |
[DOI] |
| , , , and , A novel photo-respirometry method to characterize consortia in microalgaerelated wastewater treatment processes (2020), in: Algal Research, 47 |
[DOI] |
| , and , An Interactive Tool for Simulation of Biological Models Into the Wastewater Treatment With Microalgae (2021), in: Frontiers in Environmental Science(298) |
[DOI] |
| , , , , , and , Wastewater treatment using Scenedesmus almeriensis: Effect of operational conditions on the composition of the microalgae-bacteria consortia (2021), in: Journal of Applied Phycology, 33(3885–3897) |
[DOI] |
| , , , , and , Annual assessment of the wastewater treatment capacity of the microalga Scenedesmus almeriensis and optimisation of operational conditions (2021), in: Scientific Reports |
[DOI] |
| , , , , and , ABACO: A New Model of Microalgae-Bacteria Consortia for Biological Treatment of Wastewaters, in: Applied Sciences, 11(998) |
[DOI] |
| , , and , Comparative evaluation of microalgae strains for CO2 capture purposes (2019), in: Journal of CO2 Utilization, 30(158-167) |
[DOI] |
| , and , BIO_ALGAE 2: improved model of microalgae and bacteria consortia for wastewater treatment (2019), in: Environmental Science and Pollution Research |
[DOI] |
T
| , , , , and , Life cycle assessment of high rate algal ponds for wastewater treatment and resource recovery (2018), in: Science of the Total Environment, 622 |
[DOI] |
| , , and , Direct transesterification of microalgae biomass and biodiesel refining with vacuum distillation (2017), in: Algal Research, 28(30-38) |
[DOI] |
V
| , , , and , Differential hydrolysis of proteins of four microalgae by the digestive enzymes of gilthead sea bream and Senegalese sole (2019), in: Algal Research, 37(145-153) |
[DOI] |