| Revista: | Journal of applied research and technology |
| Base de datos: | PERIÓDICA |
| Número de sistema: | 000427680 |
| ISSN: | 1665-6423 |
| Autores: | Sukarni, Sukarni1 Sumarli, Sumarli1 Nauri, Imam Muda1 Purnami, Purnami2 al Mufid, Akhmad1 Yanuhar, Uun3 |
| Instituciones: | 1State University of Malang, Center for Renewable and Sustainable Energy Engineering, Malang. Indonesia 2University of Brawijaya, Department of Mechanical Engineering, Malang. Indonesia 3University of Brawijaya, Faculty of Fisheries and Marine Sciences, Malang. Indonesia |
| Año: | 2018 |
| Periodo: | Feb |
| Volumen: | 16 |
| Número: | 1 |
| País: | México |
| Idioma: | Inglés |
| Tipo de documento: | Artículo |
| Enfoque: | Experimental, aplicado |
| Resumen en inglés | Among the renewable biomass fuel alternatives, microalgae are the most important fiiture choices owing to its f'ast growth rate and great capability for C02 fixation. There are vaxious species in the world, in which each species has its characteristics. This work presents a prospect of marine microalgae Isochrysis galbana for renewable fuel feedstock regarding its biomass abundance, physicochemical properties, and thermal characteristic. The seawater médium in the Erlenmeyer flask was used for the algal culturing. The biomass abundance, in term of specific growth rate and doubling time, was assessed by calculating the culture médium cells number with a hemocytometer and optical microscope. Harvesting was done by precipitating biomass with caustic soda, subsequently filtering, and washing it with distilled water. The biomass sediment had been sun-dried for three days, and then dried biomass was crushed by using the mortar to be a powder. The proximate analysis was arranged by conducting an experiment in according to the test method of ASTM D 3173-11, ASTM D 3175-11, ASTM D 3172-13 and ASTM D 3174-12 for specifying the content of moisture, volatile matter, fixed carbón, and ash of the sample, respectively. The heating valué was estimated by using adiabatic bomb calorimeter. The chemical composition of biomass was determined by Energy-dispersive X-ray (EDX) spectrometry. The biomass cellular macromolecular compounds were also evaluated by Fourier transform infrared (FTIR) spectroscopy and compared with its residue. Through eight days observation, it was noticeable that Isochrysis galbana has a specific growth rate of 0.18 d-1 and a doubling time of 3.85 d. The respective moisture, volatile matter, fixed carbón, and ash content were 12.98, 40.10, 7.47, and 39.45 (%, air-dried basis). The energy content algal biomass was 16.22 MJ kg-1. This current investigation encourages that Isochrysis galbana can be viable as one of a future sustainable solid biofuel |
| Disciplinas: | Ingeniería |
| Palabras clave: | Ingeniería de energéticos, Biocombustibles, Microalgas marinas, Biomasa, Isochrysis galbana |
| Keyword: | Energy engineering, Biofuels, Marine microalgae, Biomass, Isochrysis galbana |
| Texto completo: | Texto completo (Ver HTML) Texto completo (Ver PDF) |
