Author: Juha Nurmi

0000000000194548

AUTHOR

Juha Nurmi

showing 9 related works from this author

Comparison of two melting range analysis methods with lactitol monohydrate

2001

Abstract In pharmacopoeia, the melting point is determined by a standard method with a melting point instrument. The melting point can also be determined with differential scanning calorimetry (DSC). In this study, the standard method and DSC method are compared for determining the melting range of lactitol monohydrate. The effect of initial temperature, grinding, and drying on the melting range of different lactitol monohydrate samples was studied by a melting point instrument. The melting point and melting enthalpy of the stable form of lactitol monohydrate was identified by DSC. The statistical analysis of the results is based on a t-test. All studied variables had a small effect on the …

LactitolEnthalpy of fusionEnthalpyThermodynamicsRepeatabilityCondensed Matter Physicschemistry.chemical_compoundDifferential scanning calorimetrychemistryMelting pointPhysical and Theoretical ChemistryHydrateThermal analysisInstrumentationThermochimica Acta

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Crystal and molecular structure of anhydrous betaine, (CH3)3NCH2CO2

1999

Abstract 1–Carboxy–N,N,N–trimethylmethanamanium inner salt or anhydrous betaine, (CH3)3NCH2CO2, FW=117.15 gmol −1 , crystallizes in the orthorhombic space group Pnma with a=14.544(2) A , b=6.859(3) A , c=6.131(1) A , V=611.7(3) A 3 , Z=4, D x =1.27 Mgm −3 , λ (MoK α )=0.71073 A , μ =0.091 mm −1 . The structure was resolved by direct methods and refined by least-square calculations to R=0.038 for 531 reflections. Observed changes in bond angles imply that there is a repulsion between nitrogen and oxygen. The melting point (measured at onset) is 570 K. FTIR spectra of anhydrous betaine and monohydrate were recorded. Clear differences were found between the two compounds based on infrared (i.r…

ChemistryOrganic ChemistryInorganic chemistryCrystal structureAnalytical ChemistryInorganic ChemistryCrystalCrystallographychemistry.chemical_compoundMolecular geometryBetaineMelting pointAnhydrousOrthorhombic crystal systemAbsorption (chemistry)SpectroscopyJournal of Molecular Structure

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Effect of Seasonal Storage on Single-Stem Bark Extractives of Norway Spruce (Picea abies)

2021

Increasing the net value of forestry side-streams has both ecological as well as economic benefits for emerging biorefining industries. Spruce bark represents one of the nature’s abundant sources of valuable extractives. In this study, the impact of storage on the quality and quantity of Norway spruce (Picea abies) extractives was examined as a function of storage time, environmental conditions and season (i.e., winter or summer). The bark from stored spruce saw logs was extracted with an accelerated solvent extractor (ASE) at 120 °C with hexane and water. The produced extracts were analysed qualitatively and quantitatively by gas chromatography with a flame ionisation detector (GC-FID) and…

0106 biological sciencessuuren erotuskyvyn nestekromatografiahigh-performance liquid chromatography (HPLC)020209 energykaasukromatografiahydrophilic02 engineering and technologyRaw material01 natural sciencescomplex mixturessäilytyschemistry.chemical_compoundlipophilic010608 biotechnology0202 electrical engineering electronic engineering information engineeringLigningas chromatography (GC)Biorefiningbiomassa (teollisuus)CelluloseQK900-989Plant ecologyChemical compositiondegradationbiologypuunkuorispruce barkForestryPicea abiesbiology.organism_classificationluonnonaineetpilaantuminenHorticulturechemistryuuttovisual_artsivutuotteetvisual_art.visual_art_mediumextractionwood extractivesBarkGas chromatographymetsäkuusibiomass storageForests

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From Norway Spruce Bark to Carbon Foams : Characterization, and Applications

2020

Fresh bark from spruce Picea abies was milled and extracted with hot water. The extracts were purified in a number of steps in order to get tannin-extracts pure enough to prepare tannin-based carbon foams. The chemical composition of the extracts were analyzed. The foams were maturated and thermally treated to obtain desired properties, such as specific surface area, porosity, and compressive strength. It was possible to produce carbon foams even if they contained carbohydrate impurities. Differences in the properties of the carbon foams such as compressive strength, specific surface areas, and pore size distributions might be related to the compositions of the extracts. The foams were fina…

0106 biological sciencesbarkEnvironmental EngineeringMaterials sciencechemistry.chemical_elementBioengineeringThermal treatment01 natural scienceshuokoisuusAdsorptiontannins010608 biotechnologySpecific surface areaextractivescardiovascular diseasesbiomassa (teollisuus)PorosityWaste Management and DisposalChemical compositiontanniinitbiologybiomasspuunkuoricarbon foamsPicea abiesbiology.organism_classificationvaahdotCompressive strengthchemistryChemical engineeringuuttometsäkuusiadsorptioCarbonbiomateriaalitspruce

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Crystal structure of lactitol (4-O-beta-D-galactopyranosyl-D-glucitol) dihydrate.

1992

Abstract Lactitol dihydrate, C 12 H 24 O 11 ·2H 2 O, is tetragonal, space group P 4 3 2 1 2 with cell dimensions a and b = 8.762(1), c = 45.500(3) A, and V = 3493.2(3) A 3 ; Z = 8, D x = 1.45 Mg.m −3 , λ(Cu- K α ) = 1.54056 A, μ = 1.108 mm −1 , F (000) = 1632, and T = 23°. The structure was solved by direct methods and refined by least-squares calculations to R = 0.054 for 2037 unique observed reflections. There are three intra- and twelve inter-molecular hydrogen bonds in the structure. Bond lengths and angles accord quite well with the mean values of related structures. The galactopyranosyl ring has a chair of conformation.

Models MolecularChemistryStereochemistryHydrogen bondOrganic ChemistryMolecular Sequence DataHydrogen BondingGeneral MedicineCrystal structureBiochemistryAnalytical ChemistryBond lengthTetragonal crystal systemCrystallographyMolecular geometrySugar AlcoholsCarbohydrate SequenceX-Ray DiffractionX-ray crystallographyCarbohydrate ConformationMoleculeHydrateSoftwareCarbohydrate research

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Influence of drying to the structure of lactitol monohydrate

1997

The purpose of this study is to find out the effect of the crystal water content on the crystal structure of lactitol monohydrate. Crystal water was removed by drying over silicagel at 40°C and by using phosphorus pentoxide as drying agent at 20°C. The amouts of water removals were identified by thermogravimetry, the melting points and the heat of fusions were calculated from the results of differential scanning calorimetry measurements and the structure of samples were identified by X-ray powder diffraction method. Over 23 w/w% of total water content could removed by gently drying until significant structural changes could be detected. The melting point of anhydrous lactitol obtained by dr…

ThermogravimetryCrystalchemistry.chemical_compoundCrystallographyDifferential scanning calorimetryLactitolchemistryAnhydrousMelting pointAnalytical chemistryPhosphorus pentoxideWater contentJournal of thermal analysis

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Behaviour of Extractives in Norway Spruce (Picea abies) Bark during Pile Storage

2022

The current practices regarding the procurement chain of forest industry sidestreams, such as conifer bark, do not always lead to optimal conditions for preserving individual chemical compounds. This study investigates the standard way of storing bark in large piles in an open area. We mainly focus on the degradation of the most essential hydrophilic and hydrophobic extractives and carbohydrates. First, two large 450 m3 piles of bark from Norway spruce (Picea abies) were formed, one of which was covered with snow. The degradation of the bark extractives was monitored for 24 weeks. Samples were taken from the middle, side and top of the pile. Each sample was extracted at 120 °C with both n-h…

uutteettanniinitsuuren erotuskyvyn nestekromatografiahigh-performance liquid chromatography (HPLC)puunkuorikaasukromatografiastilbenespilaantuminensäilytysstilbeenitwood extractivesgas chromatography with mass selective detection (GC-MS)metsäkuusicondensed tanninspile storage

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Availability of extractives from various Norway spruce (Picea abies) stumps assortments

2022

Stumps and knotwood of Norway spruce (Picea abies) are valuable sources of wood extractives. Although lignans from knotwood have already been utilized in value-added products, the behavior and valorization of stump-derived extractives are less studied. In this study, the composition of lipophilic and hydrophilic extractives, particularly lignans, from various spruce stump samples (stump bottom, stump heart, and crushed stump samples) stored outside were studied. Lipophilic and hydrophilic extracts were separated with an accelerated solvent extraction (ASE) apparatus using n-hexane and hot water, respectively. The detailed extractives content of samples was then determined by gas chromatogra…

lignanspektrometria7-hydroxymatairesinollignaanitGeneral Chemical EngineeringNorway spruceGeneral Materials ScienceGeneral Chemistryhigh-performance liquid chromatographykromatografiametsäkuusigas chromatography-mass spectrometrystump extractivesJournal of Wood Chemistry and Technology

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Availability of extractives from various Norway spruce (Picea abies) stumps assortments

2022

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