第 8 期                     王伟林，等:  共沸剂对碳酸二甲酯-甲醇分离效率的影响                                   ·1671·


                 dimethyl carbonate over copper catalysts supported on resin-derived   dimethyl  carbonate  reactive-distillation  process[J].  Industrial &
                 carbon  microspheres[J].  Chemical  Engineering  Science,  2019,  207:   engineering chemistry research, 2010, 49(2): 735-749.
                 1060-1071.                                    [17]  LIU L X (刘立新),  LI  L  M  (李鲁闽), LIU G  L (刘桂丽),  et al.
            [9]   DENG W J, SHI L, YAO J, et al. A review on transesterification of   Comparison of alternative configurations for separation of dimethyl
                 propylene carbonate and methanol for dimethyl carbonate synthesis   carbonate-methanol  mixture:  Steady  state  simulation  and  dynamic
                 [J]. Carbon Resources Conversion, 2019, 2(3): 198-212.   control[J]. Chemical Industry and Engineering Progress (化工进展),
            [10]  WANG F, PU Y F, YANG J H, et al. Process design and economic   2017, 36(3): 852-862.
                 optimization  for  the  indirect  synthesis  of  dimethyl  carbonate  from   [18]  BAIK J H, VENTE J F, MOTELICA A. Method and apparatus for
                 urea and methanol[J]. Chinese Journal of Chemical Engineering, 2019,   purification of dimethyl carbonate using pervaporation: US10377696B2
                 27(8): 1879-1887.                                 [P]. 2019-08-13.
            [11]  MARCINIAK A  A, ALVES  O C, APPEL  L G,  et al. Synthesis of   [19]  WEI H M,  WANG  F, ZHANG  J  L, et  al.  Design  and  control  of
                 dimethyl  carbonate  from  CO 2  and  methanol  over  CeO 2:  Role  of   dimethyl carbonate-methanol separation via pressure-swing distillation
                 copper as dopant and the use of methyl trichloroacetate as dehydrating   [J].  Industrial  &  engineering  chemistry  research,  2013,  52(33):
                 agent[J]. Journal of Catalysis, 2019, 371: 88-95.   11463-11478.
            [12]  XIONG  G  X  (熊国玺),  LI  G  X  (李光兴).  Separation  of  binary   [20]  NISHIHIRA  K,  YOSHIDA  S,  TANAKA  S.  Process  for  purifying
                 methanol-dimethyl  carbonate  azeotrope[J].  Chemical  Industry  and   dimethyl carbonate: US 5292917[P]. 1994-03-08.
                 Engineering Progress (化工进展), 2002, 21(1): 26-28.   [21]  ZHANG L Q (张立庆), XI D (席丹), XU X F (徐晓锋). Separation
            [13]  PASSONI  G.  Purification  of  dimethyl  carbonate:  DE2450856[P].   of  dimethyl  carbonate  from  its  azeotrope  with  methanol  using
                 1973-10-26.                                       trichloroethylene[J]. Speciality Petrochemicals (精细石油化工), 2005,
            [14]  LI W Q, MOLINA-FERNáNDEZ C, ESTAGER J, et al. Supported   22(6): 41-43.
                 ionic  liquid  membranes  for  the  separation  of  methanol/dimethyl   [22]  XIAO Y (肖杨), ZHOU J L (周继亮), CHEN S H (陈胜慧), et al.
                 carbonate mixtures by pervaporation[J]. Journal of Membrane Science,   Synthesis of DMC by transesterification in packed tower[J]. Modern
                 2020, 598: 117790.                                Chemical Industry (现代化工), 2011, 31(9): 75-79.
            [15]  LI W X (李文秀), LIAN L Y (连利燕), ZHANG Z G (张志刚), et al.   [23]  CHENG N  L (程能林).  Solvent  handbook[M].  Beijing:  Chemical
                 Separation  of  dimethyl  carbonate-methanol  mixture  by  extractive   Industry Press (化学工业出版社), 2015: 382-383.
                 distillation[J].  Chemical  Engineering  (化学工程),  2012,  40(7):   [24]  RODRÍGUEZ  A,  CANOSA  J,  DOMı ́ NGUEZ  A, et  al.  Isobaric
                 14-17, 25.                                        vapour-liquid  equilibria  of  dimethyl  carbonate  with  alkanes  and
            [16]  HSU K Y, HSIAO Y C, CHIEN I L. Design and control of dimethyl   cyclohexane  at  101.3  kPa[J].  Fluid  Phase  Equilibria,  2002,  198(1):
                 carbonate-methanol  separation  via  extractive  distillation  in  the   95-109.

            （上接第 1664 页）                                           bacteria,  construction of composite bacteria system and analysis of
                                                                   straw  degradation  effect[J].  Journal  of  Applied  and  Environmental
            [9]   KONG W J (孔望君), JIANG H F (将会芳), RAN H M (冉火苗),     Biology (应用与环境生物学报), 2016, 22(4): 689-696.
                 et al. Isolation and identification of two strains of soil actinomycetes   [18]  VAN  SOEST  P  J,  ROBERTSON  J  B,  LEWIS  B  A.  Methods  for
                 ZSM-1  and  ZSM-2[J].  Food  Science  (食品科学),  2016,  137(11):   dietary fiber, neutral detergent fiber, and nonstarch polysaccharides
                 114-119.                                          in  relation  to  animal  nutrition[J].  Journal  of  Dairy  Science,  1991,
            [10]  KUMAR,  ADEPU  K.  UV  mutagenesis  treatment  for  improved   74(10): 3583-3597.
                 production of endoglucanase and β-glucosidase from newly isolated   [19]  REN D M (任大明), ZHAO  Y (赵钰), BAI W Q (白炜琪),  et al.
                 thermotolerant  actinomycetes,  Streptomyces griseoaurantiacus[J].   Isolation,  identification  and  enzymatic  properties  of  a  cellulase-
                 Bioresources and Bioprocessing, 2015, 2(1): 22.   producing  actinomycete[J].  Journal  of  Shenyang  Agricultural
            [11]  ZHAO S S (赵珊珊). Screening of actinomycetes and identification   University (沈阳农业大学学报), 2016, 47(6): 667-672.
                 of new species micromonospora parathelypteridis in soybean sclerotia   [20]  LI D S (李堆淑). Optimization of cellulase production by streptomyces
                 disease[D].  Harbin:  Northeast  Agricultural  University  (东北农业大  griseus by response surface methodology[J]. Genomics and Applied
                 学), 2017.                                         Biology (基因组学与应用生物学), 2019, 38(3): 1123-1130.
            [12]  BUI  H  B.  Isolation  of  cellulolytic  bacteria,  including  actinomycetes,   [21]  CHEN  Y  W  (陈逸文).  Screening  of  cellulase-producing  marine
                 from  coffee  exocarps  in  coffee-producing  areas  in  Vietnam[J].   microorganisms, optimization of enzyme production and preliminary
                 International Journal of Recycling of Organic Waste in Agriculture,   study  of  enzymatic  properties[D].  Hangzhou:  Zhejiang  University
                 2014, 3(1): 48.                                   (浙江大学), 2017.
            [13]  PANDEY S, SINGH S, YADAV A N, et al. Phylogenetic diversity   [22]  ZHANG  J  Z  (张纪忠), HUANG J J (黄静娟).  Microbial  taxonomy
                 and  characterization  of  novel  and  efficient  cellulase  producing   [M]. Shanghai: Fu Dan University Press (上海:  复旦大学出版社),
                 bacterial  isolates  from  various  extreme  environments[J].  Biosci   1990.
                 Biotechnol Biochem, 2013, 77(7): 1474-1480.   [23]  SINGH S, PRANAW K, SINGH B, et al. Production, optimization
            [14]  GOLSHAN  H,  SABER  M,  MAJIDISHILSAR  F,  et al.  Laboratory   and  evaluation  of  multicomponent  holocellulase  produced  by
                 evaluation of beauveria bassiana isolates on red flour beetle tribolium   Streptomyces sp.  ssr-198[J].  Journal  of  The  Taiwan  Institute  of
                 castaneum and their characterization by random amplified polymorphic   Chemical Engineers, 2014, 45(5): 2379-2386.
                 DNA[J]. Journal of Agricultural Science and Technology, 2018, 16(4):   [24]  ELNAGGAR  E  A,  MOAWAD  H,  ELSHWEIHY  N  M,  et al.
                 747-758.                                          Optimization of culture conditions for production of the anti-leukemic
            [15]  CAO  G  L  (曹广丽).  Research  on  hydrogen-producing  strains  and   glutaminase  free  L-asparaginase  by  newly  isolated  Streptomyces
                 their  hydrogen-producing  properties  of  corn  straw[D].  Harbin:   olivaceus  NEAE-119  using  response  surface  methodology[J].
                 Harbin Institute of Technology (哈尔滨工业大学), 2010.     Biomed Research International, 2015, 2015(8): 1-17.
            [16]  ZHANG S (张爽). Screening of low temperature cellulose degrading   [25]  ZHANG G S (张根生), YANG H D (杨慧铎), YUE X X (岳晓霞),
                 bacteria  and  study  on  the  degradation  effect  of  corn  straw[D].   et al. Study on emulsion enzymatic method combined with chemical
                 Harbin: Northeast Agricultural University (东北农业大学), 2018.   method for demulsification of pumpkin seed oil by hydroenzymatic
            [17]  LI  J  (李静),  ZHANG  H  N  (张瀚能),  ZHAO  C  (赵翀),  et al.   method[J].  Food  and  Machinery  (食品与机械),  2018,  34(10):  145-
                 Separation  and  screening  of  high-efficiency  cellulose  degrading   150, 184.