Zinātniskās darbības atbalsta sistēma
Latviešu English

Publikācija: Some Aspects of the Changes in Birch Wood in the Mild Acidic Hydrolysis Process and Its Effect on the Succeeding Pyrolysis Process

Publikācijas veids Zinātniskais raksts, kas indeksēts Web of science un/vai Scopus datu bāzē
Pamatdarbībai piesaistītais finansējums Nav zināms
Aizstāvēšana: ,
Publikācijas valoda English (en)
Nosaukums oriģinālvalodā Some Aspects of the Changes in Birch Wood in the Mild Acidic Hydrolysis Process and Its Effect on the Succeeding Pyrolysis Process
Pētniecības nozare 2. Inženierzinātnes un tehnoloģijas
Pētniecības apakšnozare 2.4. Ķīmijas inženierzinātne
Autori Aivars Žūriņš
Gaļina Dobele
Jānis Rižikovs
Tatjana Dižbite
Aigars Pāže
Baiba Spince
Kristīne Meile
Atslēgas vārdi lignocellulose, hydrolysis, pyrolysis, levoglucosan
Anotācija Pre-treatment of wood is a substantially important stage to make its components more accessible for conversion to valuable products. The goal of this study was to investigate the mild hydrolysis pre-treatment of birch (Betula pendula) wood for improving the cellulosic part accessible to pyrolysis for obtaining anhydrosugars. Lignocellulose (LC) was obtained after separating hemicelluloses from birch wood chips by treating them with 3% sulphuric acid from the wood oven dry mass, followed by acid hydrolysis with steam at 100-180 ° during 60 min. Electron paramagnetic resonance (EPR) spectroscopy data showed the formation of polyconjugated systems in the LC structure, starting from a pretreatment temperature of 130 °, which, coupled with the decreasing degree of polymerisation (DP), was not favourable for the formation of levoglucosan. The optimal pre-treatment temperature can be considered to range from 120 to 130 °
Hipersaite: http://www.cellulosechemtechnol.ro/pdf/CCT3-4(2015)/p.309-315.pdf 
Atsauce Žūriņš, A., Dobele, G., Rižikovs, J., Dižbite, T., Pāže, A., Spince, B., Meile, K. Some Aspects of the Changes in Birch Wood in the Mild Acidic Hydrolysis Process and Its Effect on the Succeeding Pyrolysis Process. Cellulose Chemistry and Technology, 2015, Vol.49, No.3-4, 309.-315.lpp. ISSN 0576-9787. e-ISSN 2457-9459.
Papildinformācija Citējamību skaits:
  • Scopus  0
ID 20161