THE THERMAL DECOMPOSITION OF CH 3 131 I IN A GAS FLOW Sergey A. KULYUKHIN, Lubov' V. MIZINA. Igor' A. RUMER, Dmitrii S. LEVUSHKIN Institute of Physical.

Slides:

Advertisements

Similar presentations

Chemistry An Introduction to General, Organic, and Biological Chemistry, Eleventh Edition Copyright © 2012 by Pearson Education, Inc. Chapter 5 Chemical.

Advertisements

Writing Chemical Reactions

Decomposition of fossil fuels for hydrogen production

Chemical Reactions and Equations

SYNTHESIS AND PROPERTIES OF SUPRAMOLECULAR COMPOUNDS ON THE BASE OF LAYERED DOUBLE HYDROXIDES Isupov V.P., Tarasov K.A., Chupakhina L.E., Mitrofanova R.P.,

Deptt. Of Applied Sciences Govt. Polytechnic College For Girls Patiala Presented By- Dr. Raman Rani Mittal M.Sc., M.Phil, Ph.D. (Chemistry) 1.

Disclaimer: This content is facilitated by a team of classteacher from web resources. Hence, claiming no copyright issues on this. Any concerns can be.

Перейти на первую страницу Aftermath of Fukushima providing solutions for the localities by clean water for the period of large-scale emergencies.

1 Stoichiometry is the part of chemistry that studies amounts of substances that are involved in reactions. Stoichiometry STOY-KEE-AHM-EH-TREE.

Selective Detection of Dialkyl Phthalate by Molecular-sieving Sensor Naonobu Katada, Ken-ichi Fukuchi, Hideyuki Iwata, and Miki Niwa Tottori Univ., Fuji.

30 th ISTC Japan Workshop on Advanced Catalysis Technologies in Russia Fluidized bed catalytic pyrolysis and gasification of biomass for production of.

Ch 18: Chemical Equilibrium

Topic: EQUILIBRIUM Do Now:. VIDEO CLIP Equilibrium = Balance Not necessarily equal 1 man and 1 man equal but not balanced.

Chapter 18: Chemical Equilibrium

Measuring the Pressure of a Gas and Gas Laws of Boyle, Charles and Avogadro Chemistry 142 B Autumn Quarter, 2004 J. B. Callis, Instructor Lecture #13.

1 BYU Deposition Facility Previous Turbine Accelerated Deposition Facility (TADF) Design Parameters to match: temp, velocity, angle, materials, particle.

Analyte Ionization Lecture 3 Yuri Kazakevich Seton Hall University

6/17/2015 One Point Quiz  One quiz per table, list everyone’s name  Agree on an answer  You have two minutes.

Furnace Efficiency Bryce Cox Dallin Bullock. Problem My gas bill is very expensive My furnace claims an efficiency of 78% but it appears to be less efficient.

CH 18: CHEMICAL EQUILIBRIUM. SECTION 18.2 SHIFTING EQUILIBRIUM.

Intro to Chromatographic Separations Chap 26. Originally based on separation and identification by color Originally based on separation and identification.

Types of Chemical Reactions There are five main types of chemical reactions that we will be covering in this chapter: –Combination reactions –Decomposition.

Chemistry and Life. The Periodic Table Atomic Number: Number of Protons and Electrons Atomic mass: Mass relative to Carbon-12.

ANALYSERS. Analysers ?? Analysers are analytical instruments used for the analysis of composition of liquid,gases or solids.They basically rely on the.

Matter Chem Honors Chapter 3 Quarter 1 FALL 2014.

Solutions The inward pull that tends to minimize the surface is called surface tension. Surface tension acts like a thin skin. A liquid that has strong.

The Preparation and Collection Of Non-Metals.

Stoichiopardy Holy Moley Do the 2 or 3 step Random Limit my Percent Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Chempardy.

ISSUES TO ADDRESS... When we combine two elements... what equilibrium state do we get? In particular, if we specify... --a composition (e.g., wt%Cu - wt%Ni),

ANALYTICAL CHEMISTRY CHEM 3811 CHAPTER 22 DR. AUGUSTINE OFORI AGYEMAN Assistant professor of chemistry Department of natural sciences Clayton state university.

Chromatography Tomáš Mlčoch Pavel Moťka. Chromatography Described by Tswett in 1906 Described by Tswett in 1906 He separated some pigments using a tube.

Lecture 9 Phase Diagrams 8-1.

Introduction to Chemistry

Experimental modeling of impact-induced high- temperature processing of silicates. Mikhail GerasimovSpace Research Institute, RAS, Moscow, Russia Yurii.

1 Thermal effects The chemical reactions take place through the breaking of chemical bonds and the forming of new ones. Therefore, chemical reactions are.

INGAS 6-months Meeting, Prague, Czech Republic, May 2009 INGAS INtegrated GAS Powertrain 1 Institute of Catalysis and Surface Chemistry Polish Academy.

Pre AP Chemistry Chapter 9 “Stoichiometry”. How much can a reaction produce? To this point we are able to predict reactants and products of chemical reactions.

Institute of Organic Chemistry and Biochemistry AS CR, v.v.i. Czech University of Life Sciences Prague Jana Jaklová Dytrtová, Michal Jakl.

Chemical Equations. A chemical equation is a form of shorthand which gives an outline of the progress of a chemical reaction: 2 H 2 O → 2 H 2 + O 2 REACTANT.

6 Week Common Assessment Review If you have any hope of passing this exam,…. You Must Do This Review!!!!! ( Really, Do the Review!!!!)

Chemical Reactions.

Chemical Reactions. 7.1 DESCRIBING REACTIONS Changes in Substances Physical change – altered appearance but same composition  Water to steam  Glass.

Sorbent Media-Silica Gel

Unit 5. Fe + O 2 → Fe 2 O 3 Fe = O = Fe = O =

Avogadro’s Number 6.02 X Mole of anything 6.02 X of that thing.

EXOTHERMIC ENDOTHERMIC Why upon mixing do some solutions get cold while other release heat?

S O L U T I O N S SOLUTION: HOMOGENEOUS MIXTURE OF 2 OR MORE CHEMICAL SUBSTANCES SOLUBILITY: MAXIMUM AMOUNT OF SOLUTE THAT CAN BE DISSOLVED AT A GIVEN.

Reactions and Stoichiometry Chapters Reactions Reactants Products.

Types of Chemical Reactions

THE GRANULAR SORBENTS FOR PASSIVE ENVIRONMENT PROTECTION SYSTEM DURING SEVERE ACCIDENTS WITH TOTAL LOSS OF POWER SUPPLY AT NPPs Sergey A. KULYUKHIN, Nikolay.

Classifying Chemical Reactions Objectives: 1. Name 4 general types of chemical reactions. 2. Describe each of the four types of chemical reactions. Key.

Ch 18: Chemical Equilibrium. Section 18.2 Shifting Equilibrium.

GAS LIQUID CHROMATOGRAPHY Principles Partition of molecules between gas (mobile phase) and liquid (stationary phase).

COIL operation with iodine atoms generated in a glow discharge P.A. Mikheyev, V.N. Azyazov, M.V. Zagidullin, N.I. Ufimtsev, N.A. Khvatov, A.I. Voronov.

What are the Types of Chemical Reactions? 1. Synthesis Reaction 2. Decomposition Reaction 3. Single Replacement Reaction 4. Double Replacement Reaction.

Lecture Objectives: Introduce HW3 Learn about sorption chillers.

What volume will 1 mole of a gas occupy at STP? STP = 273K, 1.013x10 5 Pa One mole of any ideal gas occupies a volume of 22.4L at STP.

Chemistry Edition Reaction Types Formation Reactions.

NEW COMPOSITE MATERIALS FOR DECREASING OF RADIOACTIVE MOLECULAR IODINE IN THE WATER COOLANT ON THE WORKING AND NEW DEVELOPED NPPs. Institute of Physical.

Chapter 6 Chemical Reactions. What is the clue that a chemical reaction has occured? When colorless hydrochloric acid is added to a red solution of cobalt(II)

Gas Chromatography. In Gas Chromatography (GC), a gaseous mobile phase transports a gaseous solute through a long, thin column containing solid or liquid.

Ch. 8 Solutions, Acids, & Bases I. How Solutions Form  Definitions  Types of Solutions  Dissolving  Rate of Dissolving.

M.PRASAD NAIDU Msc Medical Biochemistry, Ph.D Research scholar.

Hydrogen generation and storage from sodium borohydride

Prof. Sergiy Lavrynenko National Technical University “Kh. P. I

Absolute zero is simply a linear extrapolation used to locate at point at which gasses reach zero pressure. True False.

Your Guide to Stability and Occurrence of Minerals

Major Types of Reactions

Reaction Rate Ch. 17.

Presentation transcript:

THE THERMAL DECOMPOSITION OF CH I IN A GAS FLOW Sergey A. KULYUKHIN, Lubov' V. MIZINA. Igor' A. RUMER, Dmitrii S. LEVUSHKIN Institute of Physical Chemistry and Electrochemistry, Russian Academy of Sciences, Moscow, Russia ID_3 The study found that in the absence of "Fizkhmin" TM material, the degree of the decomposition of CH I (10 mg) in air (flow rate 4.5–5.5 cm/s and time of the air flow presence in the heating zone 1.0 – 1.5 s) was equal to  (7-10)% at (540  10) о С,  (70-75)% at (640  10) о С, and  (97-99)% at (770  15) о С. In the presence of silica gel granules measuring mm, the degree of the decomposition of CH I (10 mg) in air (linear flow rate 4.8–5.2 cm/s and time of the air flow presence in the heating zone 1.0–1.1 s) was equal to  (2-3)% at (240  10) о С,  (10-15)% at (340  10) о С,  (75-80)% at (440  10) о С, and  (97-99)% at  (540  10) о С. Silica gel granules allow decreasing the CH 3131 I thermal decomposition temperature in an air flow by  200 о С. In the presence of "Fizkhmin" TM granulated materials impregnated with Ni compounds or Ni-Cu mixture (8- 10 wt.% and granule size 1.0–3.0 mm), the degree of the decomposition of CH I (10 mg) in air (linear flow rate 4.8–5.2 cm/s and time of the air flow presence in the heating zone 0.8–1.1 s) was equal to <0.2% at (20  3) о С,  ( )% at (150  20) о С,  (15-30)% at (250  10) о С,  (85-92)% at (340  15) о С, and  (95-99)% at (465  20) о С. "Fizkhmin" TM granules containing 8-10 wt.% Ni or its mixture with Cu, allow decreasing the CH I thermal decomposition temperature in an air flow by more than  300 о С. The work studies the dependence of the CH I thermal decomposition degree on the concentration of a d-element in the "Fizkhmin" TM material and its storage time, as well as on the amount of CH I in an air flow Scheme of test facility for study of the thermal decomposition of CH I in gas flow (1 - rotameters; 2 - a CH I generator; 3 - scrubber with water; 4 - the heating furnace of mine type; 5 - composite materials under study; 6 - the thermocouple; 7 - a column with SiO 2 -Cu 0 ; 8 - scrubber with 0.05 M Na 2 SO 3 solution; 9 - the heating furnace of tubular type; 10 - columns with SiO 2 -AgNO 3 ) Thermal decomposition of CH I (10 mg) in gas flow (T gas  23 о С,  = cm/s, S column  3.5 cm 2, a experiment time - 4 h) MaterialT, o C Degree of 131 I sorption, %Total degree of 131 I sorption, % Material Column with SiO 2 -Cu o Scrubber with 0,05 М Na 2 SO 3 Without thermal decomposition effect With thermal decomposition effect -*-* 540-  7,49  0,004 00  7,  9,45  0,004 00  9,  74,97  0,004 00  75,  97,95  0,004 00  98,00 Glass cylinders 4х4 mm550  0,004  19,51  0,003 00  19,51 Glass cylinders 4х4 mm660  0,03  73,94  0,015 00  73,99 SiO  2,12  0,03  0,006  2,12  2,  1,15  8,99  0,007  1,15  10,  0,54  76,20  0,009  0,54  76,  0,31  96,75  0,012  0,31  97,07 SiO 2 -NH 4 OH340  0,45  7,99  0,002  0,45  8,44 SiO 2 -NH 4 NO  0,23  3,09  0,002  0,23  3,32 SiO 2 -8Cu 240  9.31  4,40  0,002  9.31  13,  3.96  58,14  0,002  3.96  62,  1.33  91,80  0,013  1.33  93,15 SiO 2 -10CuNi (1:1) 235  6.93  1,60  0,002  6.93  8,   51,19  0,003   67,  2.89  94,96  0,009  2.89  97,85 SiO 2 -10CuNi(1:4) 250   7,15  0,006   19,   51,62  0,026   89,  2.26  96,45  0,039  2.26  98,75 SiO 2 -8Ni 260   12,68  0,016   28,   38,88  0,016   87,  7.63  91,82  0,026  7.63  99,48 Thermal decomposition of CH I in gas flow on SiO 2 -8Ni composiite (T gas  23 о С,  = cm/s, S column  3.0 cm 2, a experiment time - 4 h, m composite - 10 g, h composite cm) m(CH I), mg T, o C Degree of 131 I sorption, %Total degree of 131 I sorption, % Material Column with SiO 2 -Cu o Scrubber with 0,05 М Na 2 SO 3 Without thermal decomposition effect With thermal decomposition effect   38,88  0,016   87,79 50   64,57  0,102   89, 13.0513.05 65,5665,56  0,308 13.0513.05  79,  7.63  91,82  0,026  7.63  99,  2.56  95,93  0,002  2.56  98,50 Before CH I introduction During experiment Thermal decomposition of 100 mg CH I in a gas flow on SiO 2 -8Ni composite at 440 o C