4월 24일(목), 09:00~10:30

Total Page:16

File Type:pdf, Size:1020Kb

Load more

포스터 I: 4월 24일(목), 09:00~10:30

공업화학: 4월 24일(목), 09:00 ~ 10:30

좌장: 박정훈(동국대)

(강원대)권흥수, 이원규
Cleaning system study with mounting activated species of solution using atmospheric pressure plasma

P공업목-1(118) P공업목-2(118) P공업목-3(118)

기공구조 조절 제올라이트 촉매를 이용한 액체연료의 흡열량 향상

(우수 포스터 발표상 후보)

(고려대)현동훈, 김중연, 김유리, 전병희,
김성현, (국방과학(연))정병훈, 한정식
(고려대)신동건, 김성현, 이창훈,
조동현, 정현철
열 안정성이 우수한 CO2 흡착제용 다공성 유무기 복합 지지체 제조 분산제의 구조에 따른 Jet A-1 연료의 열산화반응 탄소침적물 감소 연구
(고려대)김유리, 김성현, 전병희,
김중연, 현동훈

P공업목-4(119)

(국방과학(연))한정식, 정병훈
Effect of SAA Pretreatment on Temperature of Enzymatic Hydrolysis Using Lignocellulosic Biomass

P공업목-5(119) P공업목-6(119)

(경기대)장서윤, 박장한, 김준석 (경기대)박용철, 박장한, 김준석
Pretreatment and fractionation ofHelianthus tuberosus residue by flow-through reaction
(순천대)오성준
(순천대)양지선, 박권필
((주)CNL Energy)나일채, 이정훈
((주)ETIS)추천호

P공업목-7(119)

Carbon Felt 산처리에 의한 바나듐 레독스 흐름전지에 대한 영향 메틸카바메이트 및 메탄올을 이용한 디메틸카보네이트 제조를 위한 고활성

촉매 조사 (우수 포스터 발표상 후보)

P공업목-8(120) P공업목-9(120) P공업목-10(120) P공업목-11(120) P공업목-12(121) P공업목-13(121) P공업목-14(121) P공업목-15(121)

(한양대)이재홍, 서영웅
연속흐름반응기에서 고농도 NaBH4가수분해 반응의 촉매 종류에 따른 수소발생연구
(순천대)오성준, 정현승, 박권필
(순천대)안명원, 곽동영, 복영빈, 박권필
((주) ETIS)추천호, 김영숙
해조류 종류별 후코산틴 추출 및 염분세척
(순천대)이세훈, 박권필, ((주)ETIS)김영숙,
추천호, ((주)CNL Energy)나일채 (순천대)정재현, 정회범, 박권필 ((주)CNL Energy)라일채, 이 호
(순천대)정재현, 신은경, 정회범, 박권필
((주)CNL Energy)라일채, 이 호
(순천대)정재현, 박권필
효소연료전지에서 Anode 조건에 따른 OCV 변화 PEMFC MEA제법에 의한 성능 및 내구성 향상 PEM 수전해 과정에서 전극과 전해질 막의 변화 직접 개미산 연료전지(DFAFC)의 구동 조건에 따른 성능 비교 가속화도 4.0의 전극, 막, MEA 가속화 기법 개발
((주)CNL Energy)나일채 (순천대)정재진, 박권필
(현대자동차)안병기, 김세훈, 고재준
(순천대)정재진, 박권필

P공업목-16(122)

  • 탄화수소막을 사용한 PEMFC MEA의 특성연구Ⅳ
  • (코오롱중앙기술원)이무석, 이동훈

((주)CNL 에너지)라일채, 이 호

P공업목-17(122) P공업목-18(122)

  • 꾸지뽕나무의 화장품 효과
  • (인제대)신혜진, 황단비, 김동욱

  • (인제대)황단비, 신혜진, 김동욱
  • 프로폴리스 수목추출물을 함유한 샴푸의 개발

(고려대)김중연, 현동훈, 김유리, 전병희,
김성현, (국방과학(연))정병훈, 한정식

P공업목-19(122) P공업목-20(123) P공업목-21(123) P공업목-22(123)

제올라이트계 촉매를 이용한 항공유의 냉각능력 향상연구 Interfacial tension measurement of sodium sulfosuccinates of dodecyl ethoxylates for chemical enhanced oil recovery application (우수 포스터 발표상 후보)
(홍익대)김연지, Ria Ayu Pramudita, 류원선 (순천대)손석환, 김송찬, 이노필, 곽지훈,
안호근, 정민철, (한국교통대)이지훈
(순천대)이노필, 손석환, 정민철
(비지켐앤솔루션(주))최병길, 천현호
(경희대)김진수, Victor Manuel Aceituno
Melgar, 고영채, 이정희
Dipyridin-2-ylmethane 배위자를 포함한 백금착물의 합성 및 특성 에스테르화 반응에 의한 glycidyl methacrylate제조에 관한 연구 Direct Spraying Approach for Synthesis of ZIF-7 Membranes by Electrospray deposition

P공업목-23(123) P공업목-24(124)

분무열분해법에 의한 몰리브덴산화물 입자 제조 및 이의 부분 산화 반응 응용 (경희대)최한슬, 김대호, 하수윤, 김진수

31

연속식 용해열 합성 공정에 의한 균일한 ZIF-8 입자 합성 (우수 포스터 발표상

후보)

P공업목-25(124) P공업목-26(124) P공업목-27(124)

(경희대)최한슬, 임상혁, 김진수 (경기대)윤용호, 김현동, 정지훈
(경희대)황신영, 김진수
수소분리를 위한 V-Cr-Y, 3성분 분리막의 제조 및 연구 용매열합성법에 의한 ZIF-8 입자 및 폴리스티렌/ZIF-8 Core-Shell 입자의 제조

(우수 포스터 발표상 후보)

P공업목-28(125) P공업목-29(125)

열전도율을 높이기 위한 구형의 BN(boron nitride) 무기필러의 제조 TiO2-sol을 이용한 고굴절 하드코팅용액 제조시 silane coupling제가 미치는 영향 Temperature Dependence of Cr Impurity on Perovskite Membrane for Oxygen

Separation (우수 포스터 발표상 후보)

(경기대)김현동, 윤용호, 정지훈 (건양대)김남우, 안치용, 송기창

P공업목-30(125) P공업목-31(125) P공업목-32(126)

(동국대)이홍주, 박정훈
(건양대)안치용, 김남우, 이인표, 송기창
(동국대)김정렬, 박정훈
Sol-Gel법을 이용하여 TiO2-sol 제조시 산이 미치는 영향 이산화탄소 포집을 위한 Pd이 코팅된 V-Cr합금분리막의 수소투과특성

(우수 포스터 발표상 후보)

(경희대)Ly Hoang Vu, Le Thien An,
김진수, (강원대)김승수

P공업목-33(126) P공업목-34(126) P공업목-35(126)

Catalytic Pyrolysis of the Alga Saccharaina Japonica using Co/γ-Al2O3 Catalyst Hydrodeoxygenation of Model Compound in Bio-oil from Pyrolysis of Saccharaina Japonica Alga in Fixed-Bed Reactor (우수 포스터 발표상 후보) 역마이셀 방법을 이용한 TiO2 나노입자의 합성 및 가시광 광촉매 특성

(우수 포스터 발표상 후보)

(경희대)Ly Hoang Vu, Le Thien An,
김진수, (강원대)김승수

(경희대)노지예, 황신영, 유태경, 김진수
The preparation of amine-modified silica gel from the sodium silicate by one-pot process
(고려대)이창훈, 조동현, 정현철,
신동건, 김성현

P공업목-36(127) P공업목-37(127) P공업목-38(127)

Nanocomposite RO membrane containing functional zeolite nanoparticles. Synthesis of calcium carbonate microspheres via microalgae-templated CO2 biomineralization and their application in antimicrobial paint development The Optimal Preparation of Chitosan-Silver Nanoparticles Containing Magnetite for the Biomedical Sensor<발표취소>
(고려대)김상곤, 현동훈, 전병희, 김성현
(KAIST)Prakash C. Sahoo, 이재형

P공업목-39(127) P공업목-40(128) P공업목-41(128)

(가천대)이용춘, 강익중
(경남정보대)허광선, (ORETEC)하병욱
(조선대)김대근, 이인화, 서정은
의료 패드용 액상 실리콘 겔의 항균 특성에 관한 연구(2) Degradation characterization of Cellulose in accordance with concentration dependency of pretreatment reagent (우수 포스터 발표상 후보)
(화학(연))김은애, 배병철, 전영표, 이철위,
임지선, (충남대)이영석

P공업목-42(128) P공업목-43(128)

Effects of flame retardant treatment on the characteristics of Lyocell fabrics 아민이 화학적으로 결합한 고내구성 고분자 이산화탄소 흡착제 연구
(고려대)조동현, 신동건, 이창훈,
정현철, 김성현
(순천대)박미나, 박권필, ((주)ETIS)
추천호, 김영숙

P공업목-44(129) P공업목-45(129) P공업목-46(129)

돼지 분뇨를 이용한 미생물 연료전지 구동과 막 세척 효과 Effect of Pressure on the quality of pitch derived from Pyrolized Fuel Oil 분자량 분포에 따른 석유계 피치의 열적 특성
(화학(연))Humala, 임지선, 전영표, 이철위
(화학(연))임지선, 김종구, Paulus Halim HUMALA, 전영표, 이철위, (충남대)이영석 (화학(연))배병철, 김은애, 전영표, 이철위,
임지선, (충남대)이영석

P공업목-47(129) P공업목-48(130) P공업목-49(130) P공업목-50(130)

Effects of SOX, NOX gas adsorption properties of Lyocell based ACF Simultaneous removal of SOx and NOx using Liquid Homogeneous catalyst for CO2 liquefaction process (우수 포스터 발표상 후보) Sonication Effects for Radical Removal on Fermentation of Radical Saccharified Cellulose
(조선대)서정은, 이인화 (조선대)박서진, 이인화 (조선대)김주일, 이인화
Direct methanol preparation from methylcellulose by radical reaction in high pressure reactor

P공업목-51(130) P공업목-52(131)

La0.6Sr0.4Co0.2Fe0.8O3-δ의 제조법에 따른 산소 흡탈착 특성 의료 패드용 액상 실리콘 겔의 항균 특성에 관한 연구(3)
(동국대)박정훈, 황원찬, 박성환
(경남정보대)허광선, (ORETEC)하병욱

유동층: 4월 24일(목), 09:00 ~ 10:30

좌장: 이동현(성균관대), 이은도(생산기술(연))

(생산기술(연))조우진, 박성진, 최영태,
정수화, (성균관대)이동현

P유동목-1(273) P유동목-2(274)

기포유동층에서 소성백운석 첨가에 따른 air, air-steam 바이오매스 가스화 특성 유동층 건조 공정에서 석탄의 발화 방지기술
(에너지기술(연))박재현, 선도원, 배달희,
진경태, 류호정, 이승용, 신종선 (연세대)박재혁, (충남대)김기영

32

(충남대)김기영, 이영우
(에너지기술(연))선도원, 배달희, 박영철,
이동호, 신종선, 박재혁, 박재현
(에너지기술(연))신종선, 선도원, 배달희
(연세대)박재혁, (충남대)김기영
(에너지기술(연))진경태, 이승용, 문종호,
박영철, 류호정

P유동목-3(274)

스팀유동층 건조 장치에서 스팀의 유량이 열전달계수 변화에 미치는 영향

P유동목-4(274) P유동목-5(274) P유동목-6(275) P유동목-7(275) P유동목-8(275) P유동목-9(275) P유동목-10(276)

순환유동층 보일러를 이용한 폐기물의 혼소 특성 연구 유동층 반응기에서 인도네시아 키데코탄의 촉매가스화 두 개의 흐름영역을 갖는 유동층가스화기에서 수력학 특성 WGS 촉매의 열충격 감소를 위한 내부구조물 적용
(에너지기술(연))이승용, 진경태,
배달희, 문종호
(에너지기술(연))박지혜, 이동호, 배달희,
류호정, (충남대)이영우
(에너지기술(연))김하나, 이동호,
박재현, 류호정
열중량 분석기에서 매체순환연소를 위한 Ca계 산소공여입자들의 반응특성 Heat transfer model for liquid-solid circulating fluidized beds

(우수 포스터 발표상 후보)

(충남대)임대호, 진해룡, 강 용
(KAIST)김상돈
Development of a micro drop fluidized reactor for preparation highly porous Sn doped ZnO powders
(충남대)임대호, 오진경, 최보경, 강 용
(고등기술(연))이찬기
(에너지기술(연))서명원, 김보화, 전상구, 나정걸, 라호원, 윤상준, 김용구, 이재구,
노남선, (KAIST)김상돈

P유동목-11(276)

초중질 원유의 경질화 공정을 위한 분산형 철촉매 효과 연구 마이크로웨이브플라즈마 반응기를 통한 폐 GFRP (Glass Fiber Reinforced Plastics)의 가스화 특성 연구
(에너지기술(연))서명원, 윤영민, 라호원,
윤상준, 김용구, 이재구, 김재호
(건국대)박수엽, 원유섭, 나석호, 정아름, Muhammad Shahzad Khurram, 최정후
(에너지기술(연))박찬영, 류호정, 문종호,
이동호

P유동목-12(276) P유동목-13(276) P유동목-14(277) P유동목-15(277) P유동목-16(277) P유동목-17(277) P유동목-18(278) P유동목-19(278)

고정층/유동층에서 고체입자의 거동특성 소형 유동층 반응기를 이용한 CO2 흡수제의 반응특성 해석 고압 조건에서 연속 실험을 통한 zeolite 13X 건식흡착제의 hydrogen chloride (에너지기술(연))김재영, 조성호, 경대현,

  • 흡착 특성 연구
  • 문종호, 박영철, 류호정

(에너지기술(연))윤주영, 장명수, 이동호,
선도원, 류호정
고체연료 매체순환 연소기용 회분분리기에서 분리효율에 미치는 조업변수들의 영향 5 Nm3/hr 용량의 고온 가스 정제공정에서 고체순환속도에 미치는 조업변수들의 영향
(에너지기술(연))이동호, 조성호, 이창근,
류호정, (KAIST)박승빈
유동층 반응기에서 K-계열 CO2 흡수제의 입자크기가 응집과 반응성에 미치는 영향
(충남대)김윤섭, 이영우
(에너지기술(연))조성호, 이창근
(건국대)정아름, 원유섭, 나석호, 최정후
(에너지기술(연))이창근
재생가능한 CO2 흡착제 K2CO3 입자의 탈착 특성에 대한 기체 조성의 영향
(과학기술연합대학원대)김영두, 양 원
(생산기술(연))정수화, 이은도,
(성균관대)김범종, (전북대)이창현
(과학기술연합대학원대)양창원
(찰머스공대)Huong Nguyen, Bo Leckner
(생산기술(연))이은도, 최영태

P유동목-20(278) P유동목-21(278) P유동목-22(279)

저급 오일 공기 가스화를 통한 Producer Gas 생산에 관한 연구 Ilmenite의 고온 수성가스전환반응 활성화 특성 연구 Pseudocapacitive behavior of lignin nanocrystals hybridized onto reduced graphene oxide for renewable energy storage materials

(우수 포스터 발표상 후보)

(경희대)김윤기, 박호석
(생산기술(연))김종수, 류태우, 방병열,
이은도, (과학기술연합대학원대)김영두,
양창원

P유동목-23(279) P유동목-24(279) P유동목-25(279)

폐기물을 이용한 BFB 시스템에서 산소 부화에 따른 가스화 특성 연구 연속식 기포 유동층의 층 내 압력강하 특성
(건국대)윤필상, Muhammad Shahzad
Khurram, 최정후
(건국대)Muhammad Shahzad Khurram,
최정후, 원유섭, (에너지기술(연))박영철,
이창근
Correlation on transport velocity in an inclined fluidized bed
(에너지기술(연))한근희, 현주수, 배달희,
박재현, 선도원

P유동목-26(280) P유동목-27(280)

10MWth 순환유동층보일러에서 석탄과 SRF의 혼소시 연소배가스 배출 특성 기포탑내 미세기포의 발생장치에 따른 거동 특성 비교
(고등기술(연))강석환, 김진호, 김효식
(대웅이엔에스)우광재

33

재료 I: 4월 24일(목), 09:00 ~ 10:30

좌장: 원용선(부경대), 이재원(단국대)

P재료목-1(296) P재료목-2(297) P재료목-3(297) P재료목-4(297) P재료목-5(297)

Pd-dendrites on paper-based porous gold for 4-nitrophenol reduction Fabrication of gold nanoarray on AAO for mercury ion detection Optical properties of unique hollow silver/gold nanoparticles
(광운대)김영훈, 오승윤 (광운대)김영훈, 신현호 (광운대)김영훈, 성화경 (광운대)김영훈, 박지홍 (연세대)전형준, 이강택
Dumbbell-type Au-CdS nanorods as visible-light photocatalyst Synthesis of Water-Soluble Iron Pyrite Nanocrystals by Amphiphilic Polymer Coating Highly sensitive porous 3D structured NO2 sensor composed of 1D ZnO nanorod and 2D NiO nanosheet
(울산대)손혜정, Le Thuy Hoa,
선강규, 허승현

P재료목-6(298) P재료목-7(298) P재료목-8(298) P재료목-9(298) P재료목-10(299)

Fabrication of 3D structured ZnO nanorod/reduced graphene oxide hydrogel and its use in photo-enhanced organic dye removal Fabrication of Various Plasmonic Metal Nanoparticles Encapsulated by Various Oxide Shells
(울산대)손혜정, Van Hoang Luan,
선강규, 허승현

(재료(연))백연경, 김민지, 김영국 (연세대)나지훈, 오은석, 서동완,
김솔바로, 임상우
DSSC fabricated using surface-modified ZnO nanostructure One-Pot Synthesis of Tin-Embedded Carbon/Silica Nanocomposites for Anode Materials in Lithium-Ion Batteries
(POSTECH)황종국, 이진우

P재료목-11(299) P재료목-12(299)

Nano Lithography를 이용한 패턴화 된 단분자 박막의 구조 제어 L-PA 개질 Core-Shell 구조 자성나노입자를 이용한 R,S-Mandelic acid 분리 The Facile Synthesis of CdSe Hollow Nanoparticles and Necklace-like Nanowires from CdO Sacrificial Template via Chemical Reaction Synthesis of Alkali Metal Doped Tungsten Bronze Nanoparticles by Using Oleylamine as Surfactant and Solvent (우수 포스터 발표상 후보) Characterization of CIGS nano-powders according to additive amount of Gallium 1D fibrous sulfur composite for sodium-sulfur batteries operating at room temperature
(동아대)이도훈, 이준한, 장상목, 김종민 (동아대)박진수, 이요한, 장상목, 김종민

P재료목-13(299)

(광주과학기술원)김정원, 김원배
(중앙대)최재혁, 조현진, 박종협, 강인성,
박주현

P재료목-14(300) P재료목-15(300) P재료목-16(300) P재료목-17(300) P재료목-18(301)

(영남대)정동섭, 박진호
(KAIST)정대수, 황태훈, 최장욱

  • (재료(연))백연경, 김영국
  • Various Metal Nanoparticles Embedded into Porous Shells

Fabrication of ZnO/TiO2 nanoheterostructure and its application to photoelectochemical cell
(POSTECH)송홍선, 김희진, 용기중
(서울대)함유석, 임태호, 김명준, 최승회,
김회철, 김재정, (중앙대)김수길

P재료목-19(301) P재료목-20(301) P재료목-21(301) P재료목-22(302)

Electrodeposition of Au film for electrochemical reduction of CO2 to syngas Investigation of Cu Electroless Deposition Mechanism in the presence of bis-(3-sulfopropyl)-disulfide (SPS)
(서울대)민윤지, 임태호, 김광환, 김재정
(연세대)윤철상, 이강택
Fabrication of Highly Luminescent QD/Silicone Film with uniform dispersion by Sol-Gel Modification of Silicone Resin Mechanistic Studies of Enhanced Oxygen Incorporation near the Grain Boundary on Yttria-Stabilized Zirconia
(서울시립대)김경학, 권형욱, 한정우
(서울시립대)최주석, 김정현
Enhancement of reflection efficiency of multilayer thin films structure by modifying packing density (우수 포스터 발표상 후보)

P재료목-23(302) P재료목-24(302) P재료목-25(302)

Enhanced Surface Properties of Polymer-Coated Absolu-Fit™ Nanoparticles Gas diffusion barrier of nanolaminate multilayer structures for thin-film encapsulation of flexible OLED (우수 포스터 발표상 후보)
(아모레퍼시픽)이현석, 신송석, 최경호
(성균관대)임세희, 서승우, 남주오,
전태현, 조성민

P재료목-26(303) P재료목-27(303)

연속흐름반응기를 이용하여 증착한 ZnS 박막의 열처리 온도에 따른 특성 변화 고효율 CZTS 박막 태양전지 제작을 위한 morphology 향상
(영남대)전호영, 박선영, 류시옥
(연세대)서동완, 추혁성, 오은석, 임상우
(연세대)김솔바로, 나지훈, 오은석,
이진훈, 임상우

P재료목-28(303) P재료목-29(303)

저온 후처리 공정에 따른 Ga-doped ZnO thin film의 특성변화 Bovine Serum Albumin (BSA) 단백질이 고정된 나노입자 표면의 임피던스 신호 분석
(연세대)임영준, 이상엽 (아주대)김준현, 김창구
Experimental and computational analysis on the deposition of tin oxide films by LPCVD

P재료목-30(304) P재료목-31(304)

Improvement of Interfacial Adhesion Strength between ZnO NRs and Flexible Films for Piezoelectric Device
(전북대)박용규, 노원엽, 한윤봉
(동우화인켐)김련탁

34

White-Yellowish Light Emitting Diodes Based On Solution Processed n-ZnO Nanorods/p-CuO Quantum Dots Ink (우수 포스터 발표상 후보)
(전북대)Muhammad Yasir, Mohammad
Vaseem, 한윤봉

P재료목-32(304) P재료목-33(304) P재료목-34(305)

(전북대)Nirmalya Tripathy, Rafiq Ahmad, Seung Hyuck Bang, Jiho Min, 한윤봉
Outstanding Antibiofilm Features of Quanta-CuO Thin Film on Glass Photodegradation of volatile organic compound (VOC) through pure TiO2 and V-Doped TiO2 coated glass fibers
(전자부품(연))문지연, 김선민
(부경대)김아람, 정 국, 정재훈,
임준혁, 김수한

P재료목-35(305) P재료목-36(305) P재료목-37(305)

Silane 화합물을 이용한 역삼투막 표면개질

  • 수면상에서 포화지방산 Langmuir 막의 거동에 관한 연구
  • (창원대)박근호

Studies of the mechanism of stress applied to the plating film and the substrate of silicon delamination using simulation
(영남대)이상훈, 박진호
Stability analysis of surface chemistry modified superhydrophobic W18O49 nanowire arrays submerged underwater (우수 포스터 발표상 후보) MOCVD를 이용한 전고체전지용 전해질 증착 및 증착 온도에 따른 특성평가
(POSTECH)이정한, 백민기,
백승현, 용기중

P재료목-38(306) P재료목-39(306) P재료목-40(306)

(영남대)문태홍, 박진호
(전남대)서경주, 남성주, 장민수, 안성미,
곽종명, 고창현
용액상 단층막 형성법을 이용한 금속재질 반응기 표면의 친수성 개질 Study on the Morphological Changes of Dendritic Copper Powder Fabricated by Galvanic Displacement Reaction (우수 포스터 발표상 후보) Colloidal CdSe Tetrapod Nanocrystals for Thin Film transistors Dip coating을 이용한 은 나노와이어 특성 분석 (우수 포스터 발표상 후보) Restructuring X Zeolite from Microporous to Mesoporous Materials by Controlled Decationization (우수 포스터 발표상 후보)
(성균관대)Zhuo Kai, Nary Seo, Yu-Seon Park,
정찬화

P재료목-41(306) P재료목-42(307) P재료목-43(307)

(서울대)허현준, 차국헌, (숭실대)강문성 (성균관대)안광국, 김온유, 김동재, 남재욱

P재료목-44(307) P재료목-45(307) P재료목-46(308)

(KAIST)김현빈, 이송현, 최민기

  • (광운대)김영훈, 정의석
  • Electroreduction of 4-nitrophenol using core-shell nanoparticles

A comparative analysis of electrocatalytic properties of Pt-Pd bimetallic catalysts fabricated with polyol and L-ascorbic acid
(울산대)손혜정, 선강규, 허승현
단일 양극산화 공정을 이용한 알루미늄 산화물의 루테늄 도핑

(우수 포스터 발표상 후보)

P재료목-47(308) P재료목-48(308) P재료목-49(308)

(인하대)이철호, 최진섭
(인천대)김탁현, 김보람, 이창연 (인천대)조양상, 김혜련, 이창연
Synthesis of Highly Dispersed Small Metal-Organic Frameworks Crystal Non-Precious Oxygen Reduction Reaction Catalyst Based on Porphyrin Metal-Organic Frameworks

Electrochemical analysis of manganese oxide supercapacitors in 1,3-alkylimidazolum-based ionic liquids

P재료목-50(309)

(아주대)이혜민, 남궁윤미, 김창구

P재료목-51(309) P재료목-52(309) P재료목-53(309) P재료목-54(310)

황 화합물을 감지하기 위한 Macro-porous 산화주석의 합성 알킬기를 가진 에탄올아민용액에서 스테인리스 강의 전기화학적 특성에 관한 연구
(영남대)이태훈, 박노국, 이태진
(창원대)박근호
우수한 결정성의 TiO2 brookite 구조 합성 및 그의 광전기화학반응 연구 On the Thermal Stability of Zeolitic Imidazolate Framework-8 (ZIF-8) (우수 포스

터 발표상 후보)

(POSTECH)최민기, 용기중
(고려대)김형민, 최정규
Synthesis and Characterization of Cationic Iridium Complexes for the Fabrication of Green and Blue-green Light-emitting Electrochemical Cells Synthesis and photophysical properties of Ir(III) complexes with oxazoline based ancillary ligands for the fabrication of light-emitting electrochemical cells 질소의 도핑 농도에 따른 TiO2의 광학적 특성변화

P재료목-55(310)

(부산대)수네쉬 CD, 전영배, 최영선
(부산대)허지윤, 김태윤, 최영선

P재료목-56(310) P재료목-57(310) P재료목-58(311)

(전남대)김현섭, 조현수, 김도형
(서울과학기술대)조은범
(성균관대)Pal Nabanita, 김덕준 (중앙대)이동현, 안근선, 김유나,
이상원, 정윤정
CeIVO2/Ce2IIIO3-silica composite materials and their catalytic activity for liquid phase organic transformations Effect of Heterogeneous Multi-Layered Gelatin Scaffolds on the Diffusion Characteristics and Cellular Activities of Preosteoblasts 강제대류 온도기울기 화학증기침투(TG-CVI)를 이용한 탄소/탄소 복합재 제조 공정 연구

P재료목-59(311) P재료목-60(311) P재료목-61(311)

(홍익대)김도훈, 주경도, 정귀영

  • 활성탄소섬유를 이용한 유증기 흡착 실증설비 운전 결과
  • (고등기술(연))장정희, 한기보, 김 호

화학공정안전: 4월 24일(목), 09:00 ~ 10:30

좌장: 김지용(인천대)

(광운대)한승훈, 고병석, 김진형, 고재욱

P안전목-1(369)

HCR공정의 안전성에 관한 연구

35

P안전목-2(369) P안전목-3(369)

Coal To Liquid / Gas To Liquid 복합공정의 효율성 개선에 관한 연구 수소충전용 고압부품 시험인증 방법에 관한 연구
(광운대)백주홍, 양재모, 설지우, 고재욱
(가스안전공사)이선영, 김광석,
이승훈, 권정락
독성가스 사용시설의 자동화된 안전설계 합성시스템 연구 : I. 염소 적용 사례

(우수 포스터 발표상 후보)

P안전목-4(370)

(명지대)강 훈, 조재훈, 김은주, 신동일

P안전목-5(370) P안전목-6(370)

Gaussian Plume Model를 이용한 센서의 최적 위치 선정 원자력발전소 3등급 PE배관 버트융착 조건에 대한 연구
(서울대)조성현, 윤인섭
(가스안전공사)길성희, 조영도 (가스안전공사)김정환, 장갑만,
이진한, 조영도

P안전목-7(370) P안전목-8(371) P안전목-9(371) P안전목-10(371)

프로판 재충전 용기의 안전성 연구 SPC를 이용한 화재 모니터링에 대한 사용 변수의 고찰

(우수 포스터 발표상 후보)

(명지대)안상훈, 신동일
(서울과학기술대)이진한, 김래현
(가스안전공사)조영도
정량적 위험 기반 매설배관 건전성 관리 접근방법 A Study on Design Procedure for Efficient Depressurization System in High Pressure Hydrocarbon Processing Facilities
(서울대)Wang Qiang, 조성현, 윤인섭
(연세대)조재영, 문 일, 권휘웅
(국방과학(연))채주승, (한밭대)오 민

P안전목-11(371)

로터리킬른 소각로의 폭발 시뮬레이션과 분석
(가스안전공사)송보희, 구기태, 최성준,
유근준, 조영도

P안전목-12(372) P안전목-13(372)

고압고무호스류 등에 대한 DME-LPG 혼합연료 설비적용 안전성평가 연구 Risk Assessment Using Data Analysis Program for the Life Cycle in the Chemical Processes
(현대중공업)김현민, (서울대)윤인섭
(연세대)권휘웅, 조재영, 탁경재, 문 일
(한밭대)오 민, (국방과학(연))채주승

P안전목-14(372) P안전목-15(372)

Detonation simulation for high energetic materials (TNT) PSO를 이용한 다층 구조의 플랜트 최적 배치에 관한 연구

환경: 4월 24일(목), 09:00 ~ 10:30

(부경대)박평재, 이창준

좌장: 천동현(에너지기술(연))

(충남대)조종훈, 김상겸, 김정수, 이영우
(에너지기술(연))이시훈

P환경목-1(375) P환경목-2(375)

다성분계 VOCs의 농도에 따른 흡착 특성 비교 (우수 포스터 발표상 후보) K2CO3가 공침된 hydrotalcite에 대한 reconstruction 과정의 영향

(우수 포스터 발표상 후보)

(고려대)김수지, 이기봉

P환경목-3(376) P환경목-4(376)

Na-Ca Double Salt 기반 흡착제의 특성 연구 (우수 포스터 발표상 후보) 카바메이트 열분해를 통한 이소시아네이트 제조 (우수 포스터 발표상 후보)
(고려대)최승완, 이찬현, 이기봉
(한양대)현민정, 서영웅
(에너지기술(연))성요한, 남성찬, 정순관,
전일수, 윤여일, (호서대)김헌창
(명지대)Hiremath Vishwanath, 이한영,
이규영, 서정길

P환경목-5(376) P환경목-6(376)

촉진탄산칼륨 수용액의 이산화탄소 흡수특성 연구 (우수 포스터 발표상 후보) Ordered Mesoporous Magnesia-Alumina Adsorbents for Post-Combustion

CO2 Capture (우수 포스터 발표상 후보)

P환경목-7(377) P환경목-8(377)

  • 고농도 이산화탄소가 수은 분석에 미치는 영향 (우수 포스터 발표상 후보)
  • (충북대)민효기, 윤다경, 이상섭

  • (충북대)윤지혜, 이상섭
  • 열분석기를 이용한 슬러지 연소 연구 (우수 포스터 발표상 후보)

배출권거래제와 목표관리제의 효율적 시행을 위한 방안 연구

(우수 포스터 발표상 후보)

P환경목-9(377) P환경목-10(377) P환경목-11(378) P환경목-12(378)

(연세대)김은정, 박상원, 이민구, 박진원
(연세대)강동우, 박상원, 박진원 (연세대)이윤영, 조호용, 박진원
(경북대)박학순, 추광호
Carbon Utilization by forming Precipitated Calcium Carbonate by Chemical Conversion at Moderate Condition (우수 포스터 발표상 후보) The study of producing CaCO3 via reverse microemulsion system with different

surfactants (우수 포스터 발표상 후보)

수처리용 금속분리막을 이용한 전기화학적 하수 처리

(우수 포스터 발표상 후보)

Adsorptive removal of Reactive Red 120 by soluble nano-sized organoclays

(우수 포스터 발표상 후보)

P환경목-13(378) P환경목-14(378) P환경목-15(379)

(조선대)김용운, 신현재
Artificial Carbon Cycle Utilizing Condensation Reaction of CO2 Additive effects on CO2 absorption and regeneration properties of Lithium Orthosilicate-based sorbents at high temperature
(POSTECH)김장규
(경북대)김민주, 권용목, 차수호, 김재창, 이수출, 정석용, (화학(연))박용기, 서휘민 (경북대)유천용, 이수출, 차수호, 황병욱, 정석용, 김동현, 김재창, (SK innovation) 이백운, (한전 전력(연))류청걸, 이중범
CO2 absorption properties of MgO-based sorbents for the pre-combustion process

P환경목-16(379)

36

P환경목-17(379) P환경목-18(379) P환경목-19(380)

  • 식품공정의 고농도 염수 재이용 기술 연구
  • (고등기술(연))이은실, 정희숙

(고등기술(연))이은실, 장은석 (고등기술(연))이은실, 홍범의
바이오매스 열수탄화 반응 여액의 생물학적 처리 가능성 평가 불소처리를 위한 화학적 응집 기술 연구
(고등기술(연))장정희, 김 호
((주)동명엔터프라이즈)한장희

P환경목-20(380) P환경목-21(380)

온도변화에 따른 유증기 증기압 변화가 액화효율에 미치는 영향 분석 대기압 고온 플라즈마를 이용한 CH4 건식개질반응 특성 연구
(고등기술(연))신중욱, 류재홍, 오승천
(국가핵융합(연))홍용철

P환경목-22(380) P환경목-23(381)

열수탄화반응이 바이오매스 연료 특성에 미치는 영향 CFD를 이용한 선박평형수 처리용 디스크필터 최적 설계
(고등기술(연))장은석, 이은실
(고등기술(연))송형운, 고동신, 허덕재
((주)테크로스)김대원

(고등기술(연))성호진, 박영수, 전병준,
김양진, 윤영식, 남성방, 박혜정, 김준석,
구재회, (삼호환경기술(주))이장근

P환경목-24(381)

고정층 반응기를 이용한 생활폐기물 비성형 SRF의 공기가스화 특성 연구
(고등기술(연))박혜정, 남성방, 김양진,
김준석, 박영수, 성호진, 구재회

Recommended publications
  • Preparing to Manufacture Hydrogen Peroxide

    Preparing to Manufacture Hydrogen Peroxide

    PREPARING TO MANUFACTURE HYDROGEN PEROXIDE Part of the Hydrogen Peroxide Propulsion Guide The early laboratory preparation of hydrogen peroxide was based on the technique that Thenard used during the initial preparation of hydrogen peroxide. In this technique, barium nitrate, purified by recrystallization, was decomposed by heating in air in a porcelain retort. The resulting oxide was further oxidized by heating in a stream of oxygen to a dull red heat. The barium peroxide which formed was then dampened, ground, and dissolved in hydrochloric acid (nitric acid was used in Thenard’s initial experiments). A slight excess of sulfuric acid was then added to precipitate barium sulfate and regenerate hydrochloric acid. The procedure of barium peroxide solution and sulfate precipitation was repeated several times in the same solution to increase the peroxide concentration (concentrations of up to 33 percent by weight hydrogen peroxide could be achieved in this manner). The concentrated solution containing water, hydrogen peroxide, and hydrochloric acid, along with accumulated impurities, was cooled with ice and saturated with barium peroxide; iron and manganese impurities in the solution were then precipitated out as phosphates. The hydrochloric acid was removed by the addition of silver sulfate and the sulfate ion was removed by the subsequent addition of barium oxide. Further concentration was accomplished by vacuum distillation until “no further density increase occurs.” Thenard reported that 100 w/o hydrogen peroxide (on the basis of density data and the measurement of the volume of oxygen released) could be obtained by this technique. The first record of commercial production of hydrogen peroxide appeared in the 1865 to 1875 period.
  • Most Common Substances in Chemicals for Different Industries

    Most Common Substances in Chemicals for Different Industries

    Table 14 Most common substances by industry Figures for 2009. Substances contained in more than 10 products. A substance can be omitted for secrecy reasons. Industry CAS-no Substance Number of products A01 Agriculture 7732-18-5 Water 458 6484-52-2 Nitric acid ammonium salt 77 57-55-6 1,2-Propanediol 75 64742-65-0 Distillates (petroleum), solvent-dewaxed heavy 74 paraffinic 63148-62-9 Siloxanes and Silicones, di-Me 60 57-13-6 Urea 54 67-63-0 2-Propanol 54 11138-66-2 Xanthan gum 53 7783-20-2 Sulfuric acid diammonium salt 53 7722-76-1 Phosphoric acid, monoammonium salt 52 7487-88-9 Sulfuric acid magnesium salt (1:1) 51 7447-40-7 Potassium chloride 46 56-81-5 1,2,3-Propanetriol 44 7778-80-5 Sulfuric acid dipotassium salt 43 1310-73-2 Sodium hydroxide 41 7647-14-5 Sodium chloride 41 2634-33-5 1,2-Benzisothiazol-3(2H)-one 38 1310-58-3 Potassium hydroxide 33 7757-79-1 Nitric acid potassium salt 33 7785-87-7 Manganese sulfate 32 7664-38-2 Phosphoric acid 32 72623-87-1 Lubricating oils, petroleum, C20-50, 31 hydrotreated neutral oil-based 64741-89-5 Distillates (petroleum), solvent-refined light 29 paraffinic 77-92-9 1,2,3-Propanetricarboxylic acid, 2-hydroxy- 28 8061-51-6 Lignosulfonic acid, sodium salt 28 7778-18-9 Sulfuric acid, calcium salt (1:1) 27 64-17-5 Ethanol 27 14807-96-6 Talc 26 64742-94-5 Solvent naphtha (petroleum), heavy arom. 25 68649-42-3 Phosphorodithioic acid, O,O-di-C1-14-alkyl 24 esters, zinc salts (2:1) 64-02-8 Glycine, N,N'-1,2-ethanediylbis[N- 24 (carboxymethyl)-, tetrasodium salt 64-19-7 Acetic acid 23 99-76-3 Benzoic acid,
  • TSCA New Chemicals Notices Received File:///W:/Oneepa/Newchems/Pubs/5D2-IMD/PMN-SNUN-MCAN-T

    TSCA New Chemicals Notices Received File:///W:/Oneepa/Newchems/Pubs/5D2-IMD/PMN-SNUN-MCAN-T

    TSCA New Chemicals Notices Received file:///W:/OneEPA/Newchems/pubs/5d2-IMD/PMN-SNUN-MCAN-T... TSCA New Chemicals Notices Received April, 2020 Received Case No. Version Manufacturer Use Chemical Substance Date (S) A lubricating agent used in the SN-19-0004A 4 06/04/2019 CBI production of (G) Pitch coke automotive disc brakes Molecular SN-19-0005A 2 05/28/2019 (G) Conductive ink (S) Functionalized multiwall carbon nanotubes Rebar Design (G) Carboxylic acids, unsaturated, polymers with disubstituted (G) Polymer for amine, alkanediol, substituted alkylpropanoic acid, alkanedioic P-16-0442A 4 06/26/2019 CBI coatings acid and substituted isocyanatocycloalkane, compds with alkylamine (G) Carboxylic acids, unsaturated, hydrogenated polymers with (G) Polymer for disubstituted amine, alkanediol, substituted alkylpropanoic P-16-0443A 4 06/26/2019 CBI coatings acid, alkanedioic acid and substituted isocyanatocycloalkane, compds with alkylamine (G) Polymer for P-16-0444A 4 06/26/2019 CBI (G) Amine salted polyurethane coatings (G) Carboxylic acids, unsaturated, hydrogenated polymers with (G) Polymer for substituted alkanediamine, alkanediol, substituted P-16-0445A 4 06/26/2019 CBI coatings alkylpropanoic acid, alkanedioic acid and substituted isocyanatocycloalkane, compds with alkylamine P-17-0007A 5 06/13/2019 CBI (S) Intermediate (G) Dialkyl 7,10-dioxa, dithiahexadeca diene (G) Substituted carboxylic acid, polymer with 2,4-diisocyanato- (G) Adhesive for 1-methylbenzene, hexanedioic acid, alpha-hydro-omega- P-17-0239A 6 06/11/2019 CBI open non-descriptive
  • SAFETY DATA SHEET Sodium Persulfate

    SAFETY DATA SHEET Sodium Persulfate

    SAFETY DATA SHEET Sodium Persulfate SDS # : 7775-27-1 Revision date: 2021-02-17 Format: NA Version 1.06 1. PRODUCT AND COMPANY IDENTIFICATION Product Identifier Product Name Sodium Persulfate CAS-No 7775-27-1 Synonyms Sodium Peroxydisulfate; Disodium Peroxydisulfate; Peroxydisulfuric acid, disodium salt; Peroxydisulfuric acid, sodium salt. Recommended use of the chemical and restrictions on use Recommended Use: Polymerization initiator; Etchant and cleaner for printed circuit boards; Hair bleaching formulations; Secondary oil recovery; Oxidizing agent for a variety of organic reactions. Restrictions on Use No uses to be advised against were identified. Manufacturer/Supplier PeroxyChem LLC 2005 Market Street Suite 3200 Philadelphia, PA 19103 Phone: +1 267/ 422-2400 (General Information) E-Mail: [email protected] Emergency telephone numbers For leak, fire, spill or accident emergencies, call: 1 800 / 424 9300 (CHEMTREC - U.S.A.) 1 703 / 527 3887 (CHEMTREC - Collect - All Other Countries) +1 303/ 389-1409 (Medical - U.S. - Call Collect) Page 1 / 10 Sodium Persulfate SDS # : 7775-27-1 Revision date: 2021-02-17 Version 1.06 2. HAZARDS IDENTIFICATION Classification OSHA Regulatory Status This material is considered hazardous by the OSHA Hazard Communication Standard (29 CFR 1910.1200) Acute toxicity - Oral Category 4 Skin corrosion/irritation Category 2 Serious eye damage/eye irritation Category 2B Respiratory sensitization Category 1 Skin sensitization Category 1 Specific target organ toxicity (single exposure) Category 3 Oxidizing Solids
  • 19650003847.Pdf

    19650003847.Pdf

    NATIONAL BUREAU OF STANDARDS REPO RT 8595 PRELIMINARY REPORT ON A SURVEY OF THERMODYNAMIC PROPERTIES OF THE COMPOUNDS OF THE ELEMENTS CHNOPS i N65 2 CACC£S$IO NUMB£:R) CTHRU) ~ ___f£ / I- (PAGES) (CdOEI ::; ~ CIU - d -P?02c2/ :33 (NASA CR OR TMX OR AD NUMBER) (CATEQORY) Progress Report for the Period 1 August to 31 October 1964 to National Aeronautics and Space Administration GPO PRICE $ _____ OTS PRICE(S) $ 1 November 1964 Hard copy (He) of· cJV r Microfiche (MF) __....;... : .:::.j~I?J~_ <@> U.S. DEPARTMENT OF COMMERCE NATIONAL BUREAU OF STANDARDS THE NATIONAL BUREAU OF STANDARD S The ational Bureau of Standards is a principal focal point in the Federal Government for assuring maximum application of the physical and engineering sciences to the advancement of technology in industry and commerce. It responsibilities include development and main tena nce of the national stand· ards of measurement, and the provisions of means for making measurements consi tent with those standard ; determination of physical constants and properties of materials; development of methods for testing materials, mechanisms, and structures, and making such tests as may be nece sary, particu­ larl: for ~overn ment agencies; cooperation in the establi hment of standard practices for incorpora­ tion in codes and specifications; advisory service to government agencies on scientific and technical problems; invention and development of device to serve special needs of the Government: assi tance to indus! r). business. and consumers in the development and acceptance of commercial tandard and simplified trade practice recommendations; administration of programs in cooperation with United tates bu iness groups and standards organizations for the development of international standard of practice; and maintenance of a clearinghouse for the collection and dis emination of scientific, tech­ nical.
  • Organic Chemistry of Explosives

    Organic Chemistry of Explosives

    JWBK121-FM October 11, 2006 21:10 Char Count= 0 Organic Chemistry of Explosives Dr. Jai Prakash Agrawal CChem FRSC (UK) Former Director of Materials Defence R&D Organisation DRDO House, New Delhi, India email: [email protected] Dr. Robert Dale Hodgson Consultant Organic Chemist, Syntech Chemical Consultancy, Morecambe, Lancashire, UK Website: http://www.syntechconsultancy.co.uk email: [email protected] iii JWBK121-FM October 11, 2006 21:10 Char Count= 0 iii JWBK121-FM October 11, 2006 21:10 Char Count= 0 Organic Chemistry of Explosives i JWBK121-FM October 11, 2006 21:10 Char Count= 0 ii JWBK121-FM October 11, 2006 21:10 Char Count= 0 Organic Chemistry of Explosives Dr. Jai Prakash Agrawal CChem FRSC (UK) Former Director of Materials Defence R&D Organisation DRDO House, New Delhi, India email: [email protected] Dr. Robert Dale Hodgson Consultant Organic Chemist, Syntech Chemical Consultancy, Morecambe, Lancashire, UK Website: http://www.syntechconsultancy.co.uk email: [email protected] iii JWBK121-FM October 11, 2006 21:10 Char Count= 0 Copyright C 2007 John Wiley & Sons Ltd, The Atrium, Southern Gate, Chichester, West Sussex PO19 8SQ, England Telephone (+44) 1243 779777 Email (for orders and customer service enquiries): [email protected] Visit our Home Page on www.wiley.com All Rights Reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, scanning or otherwise, except under the terms of the Copyright, Designs and Patents Act 1988 or under the terms of a licence issued by the Copyright Licensing Agency Ltd, 90 Tottenham Court Road, London W1T 4LP, UK, without the permission in writing of the Publisher.
  • Bnl Chemical Storage Table

    Bnl Chemical Storage Table

    The only official copy of this document is on-line at the SBMS website. Before using a printed copy, verify that it is current by checking the effective date. BNL CHEMICAL STORAGE RECOMMENDATIONS This information is adapted from published references for the most common chemicals at BNL. It presents well known compatibility and storage issues but is not an inclusive list of chemicals, hazards, or compatibility issues. For guidance on chemicals not listed on this table, consult the Material Safety Data Sheet, the BNL Chemical Hygiene Officer or your Environmental Safety & Health Representative. The information provided in these tables is to serve as guidance for common work settings and may be modified as appropriate based on the quantity, container type, storage containment & safety apparatus, and work conditions. BNL CHEMICAL STORAGE INFORMATION FOR TABLE 1: COMPRESSED GASES IN CYLINDERS RECOMMENDED COLOR-CODING SYSTEM TABLE 2A: FOR SOLIDS AND LIQUIDS CONTAINER STORAGE BNL CHEMICAL STORAGE INFORMATION FOR TABLE 2B: CONTAINERS OF SOLIDS AND LIQUIDS 12.0/12029e011.pdf 1 of 22 (02/2011) The only official copy of this document is on-line at the SBMS website. Before using a printed copy, verify that it is current by checking the effective date. TABLE 1: BNL CHEMICAL STORAGE INFORMATION FOR COMPRESSED GASES IN CYLINDERS Note: See the Compressed Gas Cylinders and Related Systems Subject Area for additional information and requirements. Global Type Examples Harmonization Storage Symbol Can be stored with all CORROSIVE other classes unless the
  • New York City Department of Environmental Protection Community Right-To-Know: List of Hazardous Substances

    New York City Department of Environmental Protection Community Right-To-Know: List of Hazardous Substances

    New York City Department of Environmental Protection Community Right-to-Know: List of Hazardous Substances Updated: 12/2015 Definitions SARA = The federal Superfund Amendments and Reauthorization Act (enacted in 1986). Title III of SARA, known as the Emergency Planning and Community Right-to-Act, sets requirements for hazardous chemicals, improves the public’s access to information on chemical hazards in their community, and establishes reporting responsibilities for facilities that store, use, and/or release hazardous chemicals. RQ = Reportable Quantity. An amount entered in this column indicates the substance may be reportable under §304 of SARA Title III. Amount is in pounds, a "K" represents 1,000 pounds. An asterisk following the Reporting Quantity (i.e. 5000*) will indicate that reporting of releases is not required if the diameter of the pieces of the solid metal released is equal to or exceeds 100 micrometers (0.004 inches). TPQ = Threshold Planning Quantity. An amount entered in this column reads in pounds and indicates the substance is an Extremely Hazardous Substance (EHS), and may require reporting under sections 302, 304 & 312 of SARA Title III. A TPQ with a slash (/) indicates a "split" TPQ. The number to the left of the slash is the substance's TPQ only if the substance is present in the form of a fine powder (particle size less than 100 microns), molten or in solution, or reacts with water (NFPA rating = 2, 3 or 4). The TPQ is 10,000 lb if the substance is present in other forms. A star (*) in the 313 column= The substance is reportable under §313 of SARA Title III.
  • Nomenclature of Inorganic Chemistry (IUPAC Recommendations 2005)

    Nomenclature of Inorganic Chemistry (IUPAC Recommendations 2005)

    NOMENCLATURE OF INORGANIC CHEMISTRY IUPAC Recommendations 2005 IUPAC Periodic Table of the Elements 118 1 2 21314151617 H He 3 4 5 6 7 8 9 10 Li Be B C N O F Ne 11 12 13 14 15 16 17 18 3456 78910 11 12 Na Mg Al Si P S Cl Ar 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br Kr 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe 55 56 * 57− 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 Cs Ba lanthanoids Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po At Rn 87 88 ‡ 89− 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 Fr Ra actinoids Rf Db Sg Bh Hs Mt Ds Rg Uub Uut Uuq Uup Uuh Uus Uuo * 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu ‡ 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 Ac Th Pa U Np Pu Am Cm Bk Cf Es Fm Md No Lr International Union of Pure and Applied Chemistry Nomenclature of Inorganic Chemistry IUPAC RECOMMENDATIONS 2005 Issued by the Division of Chemical Nomenclature and Structure Representation in collaboration with the Division of Inorganic Chemistry Prepared for publication by Neil G.
  • The Following List Contains the Material Safety Data Sheets You Requested

    The Following List Contains the Material Safety Data Sheets You Requested

    The following list contains the Material Safety Data Sheets you requested. Please scoll down to view the requested MSDS(s). Product MSDS Distributor Format Language Quantity 2429700 2084769 Hach Company ROWGHS English 1 2429700 2106069 Hach Company ROWGHS English 1 __________________________________________________________________________________________________________ Total Enclosures: 2 Obtained by Global Safety Management, www.globalsafetynet.com, (877) 683-7460 World Headquarters Hach Company P.O.Box 389 MSDS No: M00039 Loveland, CO USA 80539 (970) 669-3050 SAFETY DATA SHEET _____________________________________________________________________________ 1. CHEMICAL PRODUCT AND COMPANY IDENTIFICATION Product Name: Potassium Persulfate Catalog Number: 2084769 Hach Company Emergency Telephone Numbers: P.O.Box 389 (Medical and Transportation) Loveland, CO USA 80539 (303) 623-5716 24 Hour Service (970) 669-3050 (515)232-2533 8am - 4pm CST MSDS Number: M00039 Chemical Name: Peroxydisulfuric Acid, Dipotassium Salt CAS Number: 7727-21-1 Additional CAS No. (for hydrated forms): Not applicable Chemical Formula: K2S2O8 Chemical Family: Oxidizing Agents Intended Use: Laboratory Use _____________________________________________________________________________ 2. HAZARDS IDENTIFICATION GHS Classification: Hazard categories: Oxidizing Solids: Ox. Sol. 3 Acute Toxicity: Acute Tox. 4-Orl Skin Corrosion/Irritation: Skin Irrit. 2 Respiratory or Skin Sensitization: Skin Sens.1 Serious Eye Damage/Eye Irritation:Eye Irrit. 2 Respiratory or Skin Sensitization: Resp. Sens.1 Specific Target Organ Toxicity - Single Exposure: STOT SE 3 GHS Label Elements: DANGER Hazard statements: May intensify fire; oxidiser. Harmful if swallowed. Causes skin irritation. May cause an allergic skin reaction. Causes serious eye irritation. May cause allergy or asthma symptoms or breathing difficulties if inhaled. May cause respiratory irritation. Precautionary statements: Wear protective gloves / protective clothing / eye protection / face protection.
  • BNL CHEMICAL STORAGE and COMPATIBILITY TABLE Revision Date: 07-24-07 the Only Official Copy of This Document Is On-Line at the SHSD Website

    BNL CHEMICAL STORAGE and COMPATIBILITY TABLE Revision Date: 07-24-07 the Only Official Copy of This Document Is On-Line at the SHSD Website

    BNL CHEMICAL STORAGE AND COMPATIBILITY TABLE Revision Date: 07-24-07 The only official copy of this document is on-line at the SHSD website. Before using a printed copy, verify that it is current by checking the document issue date on the website. http://www.bnl.gov/esh/shsd/Programs/Program_Area_Chemicals_Compatibility.asp Information contained in this table was compiled from the following sources: Academic Laboratory Chemical Hazards Guidebook by William J. Mahn, Published by Van Nostrand, Reinhold, 1991; Fire Protection Guide to Hazardous Materials 11th edition, National Fire Protection Association, 1994; Hazardtext® Hazard Managements Database; INFOTEXT® Documents Database; Better Science Through Safety by Jack A. Gerlovich and Gary E. Downs, © 1981 by the Iowa State University Press. Document Revision Date 07-24-07 Ken Erickson CHO Chemical Chemical Hazard and Compatibility Information Acetic Acid HAZARDS & STORAGE: Corrosive and combustible liquid. Serious health hazard. Reacts with oxidizing and alkali materials. Keep above freezing point (62 ºF) to avoid rupture of carboys and glass containers. INCOMPATIBILITIES: 2-amino-ethanol, Acetaldehyde, Acetic anhydride, Acids, Alcohol, Amines, 2-Amino- ethanol, Ammonia, Ammonium nitrate, 5-Azidotetrazole, Bases, Bromine pentafluoride, Caustics (strong), Chlorosulfonic acid, Chromic Acid, Chromium trioxide, Chlorine trifluoride, Ethylene imine, Ethylene glycol, Ethylene diamine, Hydrogen cyanide, Hydrogen peroxide, Hydrogen sulfide, Hydroxyl compounds, Ketones, Nitric Acid, Oleum, Oxidizers
  • Material Safety Data Sheet ______1

    Material Safety Data Sheet ______1

    World Headquarters Hach Company P.O.Box 389 MSDS No: M00039 Loveland, CO USA 80539 (970) 669-3050 MATERIAL SAFETY DATA SHEET _____________________________________________________________________________ 1. CHEMICAL PRODUCT AND COMPANY IDENTIFICATION Product Name: Potassium Persulfate Catalog Number: 2084769 Hach Company Emergency Telephone Numbers: P.O.Box 389 (Medical and Transportation) Loveland, CO USA 80539 (303) 623-5716 24 Hour Service (970) 669-3050 (515)232-2533 8am - 4pm CST MSDS Number: M00039 Chemical Name: Peroxydisulfuric Acid, Dipotassium Salt CAS No.: 7727-21-1 Chemical Formula: K2S2O8 Chemical Family: Oxidizing Agents Hazard: Oxidizer. Harmful if swallowed Allergen Causes server irritation to eyes, skin and respiratory tract Date of MSDS Preparation: Day: 13 Month: November Year: 2013 _____________________________________________________________________________ 2. COMPOSITION / INFORMATION ON INGREDIENTS Potassium Persulfate CAS No.: 7727-21-1 TSCA CAS Number: 7727-21-1 Percent Range: 100.0 Percent Range Units: weight / weight LD50: Oral Rat LD50 = 802 mg/kg LC50: None reported TLV: 5 mg/m3 PEL: 15 mg/m3 as inhalable dust; 5 mg/m3 as respirable dust Hazard: Oxidizer.Harmful if swallowedAllergenCauses server irritation to eyes, skin and respiratory tract _____________________________________________________________________________ 3. HAZARDS IDENTIFICATION Emergency Overview: Appearance: White to light yellow crystals Odor: None CAUSES EYE, SKIN AND RESPIRATORY TRACT IRRITATION HARMFUL IF SWALLOWED MAY CAUSE ALLERGIC SKIN