Self-Heating of Biochar during Postproduction Storage by O2 Chemisorption at Low Temperatures

Biochar is attracting attention as an alternative carbon/fuel source to coal in the process industry and energy sector. However, it is prone to self-heating and often leads to spontaneous ignition and thermal runaway during storage, resulting in production loss and health risks. This study investigates biochar self-heating upon its contact with O2 at low temperatures, i.e., 50–300 °C. First, kinetic parameters of O2 adsorption and CO2 release were measured in a thermogravimetric analyzer using biochar produced from a pilot-scale pyrolysis process. Then, specific heat capacity and heat of reactions were measured in a differential scanning calorimeter. Finally, a one-dimensional transient model was developed to simulate self-heating in containers and gain insight into the influences of major parameters. The model showed a good agreement with experimental measurement in a closed metal container. It was observed that char temperature slowly increased from the initial temperature due to heat released during O2 adsorption. Thermal runaway, i.e., self-ignition, was observed in some cases even at the initial biochar temperature of ca. 200 °C. However, if O2 is not permeable through the container materials, the temperature starts decreasing after the consumption of O2 in the container. The simulation model was also applied to examine important factors related to self-heating. The results suggested that self-heating can be somewhat mitigated by decreasing the void fraction, reducing storage volume, and lowering the initial char temperature. This study demonstrated a robust way to estimate the cooling demands required in the biochar production process.

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Theoretical Insight into the Reversal of Chemoselectivity in Diels-Alder Reactions of α,β-Unsaturated Aldehydes and Ketones Catalyzed by Brønsted and Lewis Acids

Organics ◽

10.3390/org2010004 ◽

2021 ◽

Vol 2 (1) ◽

pp. 38-49

Author(s):

Lakhdar Benhamed ◽

Sidi Mohamed Mekelleche ◽

Wafaa Benchouk

Keyword(s):

Lewis Acids ◽

Major Product ◽

Diels Alder ◽

Unsaturated Ketone ◽

Unsaturated Aldehydes ◽

Aldehydes And Ketones ◽

Theoretical Insight ◽

Insight Into ◽

Good Agreement

Experimentally, a reversal of chemoselectivity has been observed in catalyzed Diels–Alder reactions of α,β-unsaturated aldehydes (e.g., (2E)-but-2-enal) and ketones (e.g., 2-hexen-4-one) with cyclopentadiene. Indeed, using the triflimidic Brønsted acid Tf2NH as catalyst, the reaction gave a Diels–Alder adduct derived from α,β-unsaturated ketone as a major product. On the other hand, the use of tris(pentafluorophenyl)borane B(C6F5)3 bulky Lewis acid as catalyst gave mainly the cycloadduct of α,β-unsaturated aldehyde as a major product. Our aim in the present work is to put in evidence the role of the catalyst in the reversal of the chemoselectivity of the catalyzed Diels–Alder reactions of (2E)-but-2-enal and 2-Hexen-4-one with cyclopentadiene. The calculations were performed at the ωB97XD/6-311G(d,p) level of theory and the solvent effects of dichloromethane were taken into account using the PCM solvation model. The obtained results are in good agreement with experimental outcomes.

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Effect of wood biomass components on self-heating

Bioresources and Bioprocessing ◽

10.1186/s40643-021-00373-7 ◽

2021 ◽

Vol 8 (1) ◽

Author(s):

Nozomi Miyawaki ◽

Takashi Fukushima ◽

Takafumi Mizuno ◽

Miyao Inoue ◽

Kenji Takisawa

Keyword(s):

Moisture Content ◽

Inductively Coupled Plasma ◽

Optical Emission ◽

Chemical Oxidation ◽

Spontaneous Ignition ◽

Emission Spectrometry ◽

Inductively Coupled ◽

Self Heating ◽

Inorganic Substances ◽

Before And After

AbstractBiomass may ignite due to biological oxidation and chemical oxidation. If this phenomenon (spontaneous ignition) is controlled, it would be possible to produce biochar at a lower cost without the need for an external heat resource. We investigated if self-heating could be controlled by using sawdust and bark chips. When sawdust and bark chips were used under controlled conditions, the bark chips temperature increased to the torrefaction temperature. The ash content of bark chips was ~ 2%d.b. higher than that of sawdust; consequently, the inorganic substances contained in the bark chips might affect the self-heating. Self-heating was suppressed when inorganic substances were removed by washing with water. Therefore, the inorganic substances in the biomass might have affected self-heating. The inorganic element contents of the bark chips were measured by inductively coupled plasma optical emission spectrometry before and after washing. The potassium content of the bark chips was reduced remarkably by washing, and there was a possible influence of potassium on self-heating. Finally, the effect of moisture content on self-heating was investigated to obtain stable reactivity. Thus, at a moisture content of 40%w.b., a steady self-heating behavior may be realized.

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New insight into tantalum pentoxide Metal-Insulator-Metal (MIM) capacitors: Leakage current modeling, self-heating, reliability assessment and industrial applications

2008 IEEE International Reliability Physics Symposium ◽

10.1109/relphy.2008.4558891 ◽

2008 ◽

Cited By ~ 2

Author(s):

V. Martinez ◽

C. Besset ◽

F. Monsieur ◽

D. Ney ◽

L. Montes ◽

...

Keyword(s):

Leakage Current ◽

Reliability Assessment ◽

Industrial Applications ◽

Tantalum Pentoxide ◽

Metal Insulator ◽

Self Heating ◽

Metal Insulator Metal ◽

Insight Into ◽

Mim Capacitors

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Desiccation and low temperature attenuate the effect of UVC254 nm in the photobiont of the astrobiologically relevant lichens Circinaria gyrosa and Buellia frigida

International Journal of Astrobiology ◽

10.1017/s1473550414000470 ◽

2014 ◽

Vol 14 (3) ◽

pp. 479-488 ◽

Cited By ~ 6

Author(s):

T. Backhaus ◽

R. de la Torre ◽

K. Lyhme ◽

J.-P. de Vera ◽

J. Meeßen

Keyword(s):

Low Temperature ◽

Low Temperatures ◽

Photosynthetic Activity ◽

Real Space ◽

Fast Recovery ◽

Protective Mechanisms ◽

Subzero Temperatures ◽

High Viability ◽

Buellia Frigida ◽

Insight Into

AbstractSeveral investigations on lichen photobionts (PBs) after exposure to simulated or real-space parameters consistently reported high viability and recovery of photosynthetic activity. These studies focused on PBs within lichen thalli, mostly exposed in a metabolically inactive state. In contrast, a recent study exposed isolated and metabolically active PBs to the non-terrestrial stressor UVC254 nm and found strong impairment of photosynthetic activity and photo-protective mechanisms (Meeßen et al. in 2014b). Under space and Mars conditions, UVC is accompanied by other stressors as extreme desiccation and low temperatures. The present study exposed the PBs of Buellia frigida and Circinaria gyrosa, to UVC in combination with desiccation and subzero temperatures to gain better insight into the combined stressors' effect and the PBs' inherent potential of resistance. These effects were examined by chlorophyll a fluorescence which is a good indicator of photosynthetic activity (Lüttge & Büdel in 2010) and widely used to test the viability of PBs after (simulated) space exposure. The present results reveal fast recovery of photosynthetic activity after desiccation and subzero temperatures. Moreover, they demonstrate that desiccation and cold confer an additional protective effect on the investigated PBs and attenuate the PBs' reaction to another stressor – even if it is a non-terrestrial one such as UVC. Besides other protective mechanisms (anhydrobiosis, morphological–anatomical traits and secondary lichen compounds), these findings may help to explain the high resistance of lichens observed in astrobiological studies.

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Spontaneous ignition and thermal runaway in closed and open systems. Part 2.—Ignition and extinction in the adiabatic continuous-flow well stirred reactor (c.s.t.r.) for reactions of order m

Journal of the Chemical Society Faraday Transactions 2 Molecular and Chemical Physics ◽

10.1039/f29878300539 ◽

1987 ◽

Vol 83 (3) ◽

pp. 539-552 ◽

Cited By ~ 1

Author(s):

Peter Gray ◽

Jeremy Mullins

Keyword(s):

Continuous Flow ◽

Open Systems ◽

Thermal Runaway ◽

Spontaneous Ignition ◽

Stirred Reactor

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Physical Insight into Self-heating Induced Performance Degradation in RingFET

Silicon ◽

10.1007/s12633-021-01491-9 ◽

2021 ◽

Author(s):

Sahil Singh ◽

P. S. T. N. Srinivas ◽

Arun Kumar ◽

Pramod Kumar Tiwari

Keyword(s):

Performance Degradation ◽

Self Heating ◽

Physical Insight ◽

Insight Into

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Flow Characteristics of a Powder Lubricant in a Slider Bearing

10.1115/imece2001/fed-24914 ◽

2001 ◽

Author(s):

Manjunath Pappur ◽

M. M. Khonsari

Keyword(s):

Slip Velocity ◽

Thrust Bearing ◽

Volume Fraction ◽

Flow Characteristics ◽

Slider Bearing ◽

Systematic Development ◽

Powder Lubrication ◽

Insight Into ◽

Theory And Experiment ◽

Good Agreement

Abstract This paper deals with a systematic development of theory of powder lubrication with the appropriate formalism based on the fundamentals of fluid mechanics. The theory is capable of predicting flow velocity, fluctuation (pseudo-temperature), powder volume fraction, and slip velocity at the boundaries. An extensive set of parametric simulations covering particle size, surface roughness, volumetric flow, load and speed are performed to gain insight into the performance of a powder lubricated thrust bearing. The results of simulations are compared to the published experimental results. Good agreement between the theory and experiment attests to the capability of the model and its potential for design of powder lubricated bearings.

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Isotopic Thermal Diffusion Factors for Helium and Neon at Low Temperatures

Zeitschrift für Naturforschung A ◽

10.1515/zna-1963-0223 ◽

1963 ◽

Vol 18 (2) ◽

pp. 242-245 ◽

Cited By ~ 10

Author(s):

W. W. Watson ◽

A. J. Howard ◽

N. E. Miller ◽

R. M. Shiffrin

Keyword(s):

Thermal Diffusion ◽

Low Temperatures ◽

Quantum Corrections ◽

Intermolecular Potential ◽

De Vries ◽

Lower Temperature ◽

Improved Accuracy ◽

Good Agreement

With an all-metal “swing separator” having unique features, thermal diffusion factors αT for He3/He4 and Ne20Ne22 have been measured with improved accuracy down to average gas temperatures T̅=136°K. For helium αT is 0.0696 ± 0.0010 at 136°K, dropping gradually to 0.0651 ±0.0010 at 313°K. These data, plus measurements by Van der Valk and de Vries at somewhat higher temperatures, agree best with values predicted by an exp-six intermolecular potential with ε/k=9.16 and α=12.7. We are extending these helium measurements down to T=4°K for the lower temperature, to detect if possible quantum corrections to the intermolecular potential. For neon αT increases from 0.0166 ± 0.0010 at 136°K to 0.0233 ± 0.0020 at 310°K, considerably higher than our previously reported values. These T. D. factors for neon are in good agreement with values calculated from an exp-six potential with ε/k = 46.0 ± 0.6 and α=13.

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Úsporné odstraňování dusíku procesem anammox z kalových a splaškových odpadních vod

Entecho ◽

10.35933/entecho.2019.04.001 ◽

2019 ◽

Vol 2 (1) ◽

pp. 1-5

Author(s):

Vojtěch Kouba ◽

Jan Bartáček

Keyword(s):

Nitrogen Removal ◽

Low Temperatures ◽

Municipal Wastewater ◽

Pilot Scale ◽

Main Stream ◽

Excess Sludge ◽

Partial Nitritation ◽

Loading Rates ◽

Reject Water ◽

Nitrite Oxidizing Bacteria

Proces částečná nitritace-anammox odstraňuje amoniakální dusík z odpadních vod s polovičními náklady na aeraci, až o 80 % nižší produkcí přebytečného kalu a bez spotřeby organického substrátu. Jde o zavedený proces pro odstraňování dusíku z kalových vod z anaerobní fermentace, a podobně koncentrovaných a teplých odpadních vod. Na tyto vody se částečná nitritace-anammox aplikuje již déle než deset let, a to např. pod názvy ANAMMOX®, ANITA™ Mox, DEMON®, nebo TERRAMOX®. Optimalizované provozy těchto technologií dusík běžně odstraňují při zatížení 0,5–2,3 kg∙m–3∙d–1 (30–35 °C). Současnou výzvou pro výzkum je implementace částečné nitritace-anammox do hlavního proudu studené splaškové odpadní vody, přičemž konkrétními problémy jsou (i) potlačení nežádoucích nitratačních mikroorganismů (NOB) a (ii) adaptace mikroorganismů anammox na nízké teploty. Náš výzkum jsme začali s jednostupňovým procesem, a poté nitritaci a anammox rozdělili do dvou reaktorů. Prezentujeme strategii, která v laboratorním měřítku NOB účinně potlačila i při 12 °C a dále i v pilotním měřítku při 13–30 °C. Dále ukazujeme, že anammox je možné na nízké teploty adaptovat studenými šoky. Tyto výsledky umožní rozšířit úsporné odstraňování dusíku i do hlavního proudu splaškové odpadní vody na ČOV. English: Partial nitritation-anammox (PN/A) process removes nitrogen from wastewater with 50% reduction of aeration costs, 80% less excess sludge and no consumption of organic carbon. PN/A is an established process for the removal of nitrogen from reject water from anaerobic digestion and other similarly warm and concentrated streams. On such wastewater, PN/A has been applied in full scale for over 10 years under names such as ANAMMOX®, ANITA™ Mox, DEMON® or TERRAMOX®, whose optimized installations consistently achieve nitrogen removal loading rates of 0,5–2,3 kg∙m–3∙d–1. The current challenge for research is to implement PN/A into the main stream of cold municipal wastewater, the specific challenges being (i) suppression of undesirable nitrite oxidizing bacteria (NOB) and (ii) adaptation of anammox microorganisms to low temperatures. Our initial experiences with one-stage PN/A in the main stream led us to the separation of PN/A in two subsequent reactors. Subsequently, we developed a strategy for NOB suppression in partial nitritation even under 12 °C, which we then successfully tested in the pilot scale. Furthermore, we found that anammox can be adapted to low temperatures using cold shocks. In sum, these results will enable extending the savings for nitrogen removal into the main stream of wastewater at WWTP.

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