lignocellulose

lignocellulose

1. Construction of a composite microbial system of lignocellulose degrading and effect of cultural condition on the system capability

一组木质纤维素分解菌复合系的筛选及培养条件对分解活性的影响

2. Keywords NBR;lignocellulose;short velveteen fibre;calcined Kaolinite;printing water-roll;

丁腈橡胶;木质纤维素粉;棉绒短纤维;煅烧高岭土;印刷用水辊;

3. Mixed strain of free cells and different fermentative modes of batch and fed-batch fermentation were conducted to produce ethanol from dilute-acid lignocellulose hydrolysates.

为了对木质纤维素稀酸水解液进行游离细胞乙醇发酵,采用了混合菌种与不同发酵方式对稀酸水解液的乙醇发酵进行了研究。

4. Keywords L-lactic acid;lignocellulose;producing;methods of detection;

乳酸;木质纤维素;测定方法;

5. Study of the enzymatic hydrolysis of lignocellulose from the activities of plant cell wall proteins affords new insight to investigate the mechani...

从植物自身细胞壁蛋白活性出发来研究木质纤维素的酶解,为研究其酶解机制和高效酶解方法提供了新思路。

6. Corn stalk contains high percentage lignocellulose, which is not biodegradable to anaerobic bacteria, leading to low digestion rate and biogas yield.

作物秸秆的特点是木质纤维素含量较高，而厌氧微生物的木质纤维素降解消化能力较弱，导致秸秆厌氧消化率低、产气量少，从而限制了作物秸秆生物气生产的大规模应用。

7. Keywords hydrolysates of dilute-acid lignocellulose;fermentation inhibitors;ethanol production;

关键词木质纤维素稀酸水解糖液;发酵抑制剂;乙醇发酵;

8. Key words：Cellulose ethanol ;lignocellulose; industrialization ;bio-refining ;co-production of ethanol

关键词：纤维素乙醇；木质纤维素；产业化；生物精炼；乙醇联产

9. The batch-fermentation and fed-batch fermentation of dilute-acid lignocellulose hydrolysates to ethanol using different mixed immobilized cells have been studied.

利用不同菌种的固定化细胞对木质纤维素稀酸水解液进行乙醇发酵,对2#菌进行了以木糖为底物7个批次的驯化培养。

10. The essential technique in the ethanol fermentation from dilute-acid lignocellulose hydrolysates is to obtain the strains of tolerant ethanol and inhibitors.

在对木质纤维素稀酸水解液进行乙醇发酵中,耐发酵抑制剂和耐高浓度乙醇的菌种非常重要。

11. Each year there will be a great amount of inexpensive lignocellulose.

地球上每年可形成大量价格低廉的可再生植物纤维资源。

12. Guided by a new concept of lignocellulose fractionation,the present work was undertaken to compare ethanol extraction of steam exploded wheat straw with that of wheat straw.

对汽爆麦草和麦草进行乙醇萃取木质素实验比较,其脱木质素分别为80.22%和64.11%。

13. Agaricus blazei is able to degrade all members of lignocellulose complex in cotton seed hull and wheat straw composts, so it belongs to white-rotting fungus.

巴西蘑菇能够降解棉籽壳和麦草两种培养基中木质纤维素复合体中的全部组分,属于白腐真菌;

14. However,the aged grain which is used to produce ethanol is limited.In China the biomass that could be used to produce ethanol in large quantity is lignocellulose.

我国目前燃料乙醇生产的材料是陈化粮，但我国陈化粮可用于燃料酒精生产的量十分有限。

15. Meanwhile, some suggestions to further study on the production of fuel ethanol from lignocellulose are also given.

提出应进一步加强纤维素生产燃料乙醇的研究。

16. 英文摘要 ： The pretreatment of lignocellulose is a critical step in the production of fuel ethanol by lignocellulosic materials.

摘要 ： 纤维质物料的预处理是木质纤维素原料生产燃料乙醇的关键步骤。

17. In China the biomass that could be used to produce ethanol in large quantity is lignocellulose.

摘要在我国可大量转化乙醇的是纤维质材料。

18. Lignocellulose, with cellulose and hemicellulose as its main components, extensively occurs in the world and is a kind of cheap renewable resource for ethanol production.

摘要木质纤维素是自然界广泛存在且廉价的可再生资源，其主要成分纤维素、半纤维素是潜在的燃料乙醇生产原料。

19. The structure of lignocellulose makes it hard to be degraded.

摘要木质纤维素的结构导致其不易降解。

20. 3.Biorefinery is a new technique which uses the agriculture waste, starch of plant and lignocellulose substance as raw materials to pro duce various chemicals, fuel and biomaterials.

摘要生物炼制是一种利用农业废弃物、植物基淀粉和木质纤维素材料为原料，生产各种化学品、燃料和生物基材料的新型技术。

21. The pretreatment of lignocellulose is a critical step in the production of fuel ethanol by lignocellulosic materials.

摘要纤维质物料的预处理是木质纤维素原料生产燃料乙醇的关键步骤。

22. As the energy crisis and food security increase severely, biofuel produced from lignocellulose as the substitution of gasoline has become the hotspot of biomass energy research.

摘要随着能源危机与粮食安全问题的日趋加重，以纤维质为原料生产石油替代燃料已成为生物质能研究的重点。

23. The development of fuel alcohol was studied, various processes for lignocellulose pretreatment, saccharification, and fermentation were introduced.

文章综述了燃料酒精的发展状况,重点阐述利用纤维素制造燃料酒精的预处理、糖化、发酵过程的新工艺。

24. The lignocellulose content of Citronella is the highest among the six plants at any time.

无论在生长的哪个时期，香茅的木质纤维素含量都是最高的。在第1。

25. The future development tendency of pretreatment and utilization of lignocellulose is also previewed.

最后对木质纤维原料生产燃料乙醇进行了展望。

26. Keywords wood rot microorganisms;lignocellulose;biodegradation;

木腐微生物;木质纤维素;生物降解;

27. Keywords lignocellulose;ammoniation;structure changes;

木质纤维;氨化反应;结构变化;

28. lignocellulose biomass

木质纤维原料

29. Keywords lignocellulose;two-stage dilute-acid hydrolysis in low temperature;inhibitor;ethanol fermentation;

木质纤维素;两步稀酸低温水解;抑制剂;乙醇发酵;

30. Keywords lignocellulose;xylose;yeast;ethanol;

木质纤维素;木糖;酵母;酒精;

31. Keywords lignocellulose;lignin;TDI;polyurethane;functional paper;

木质纤维素;木素;TDI;聚氨酯;功能张;

32. Keywords lignocellulose;hydrolysis;inhibitor control;ethanol fermentation;

木质纤维素;水解;抑制物控制;乙醇发酵;

33. Keywords lignocellulose;cellulase;hydrolysis;saccharification;fermentable sugar;

木质纤维素;纤维素酶;水解;糖化;可发酵性糖;

34. Keywords lignocellulose;cellulase;cell wall proteins;enzymatic hydrolysis;synergism;

木质纤维素;纤维素酶;细胞壁蛋白;酶解;协同作用;

35. Keywords lignocellulose;component;structure;pretreatment;progress;

木质纤维素;组成;结构;预处理;进展;

36. Study Mechanism of White-rot Fungi Defend Against Free Radicals During Lignocellulose Biodegradation

木质纤维素促进香菇产胞外多糖研究

37. The structure of lignocellulose is highly complicated.The enzymatic efficiency of lignocellulose is influenced by the congregated structure and components of which.

木质纤维素具有高度复杂的结构,其酶解效率除了受自身的凝聚态结构影响外,还受到细胞壁自身组分的影响。

38. lignocellulose degradation bacteria

木质纤维素分解茵

39. bacteria of lignocellulose degrading

木质纤维素分解菌

40. Keywords bacteria of lignocellulose degrading;composite microbial system MC1;stability;denaturing gradient gel electrophoresis （DGGE）;

木质纤维素分解菌;复合系MC1;稳定性;变性梯度胶电泳;

41. lignocellulose materials

木质纤维素原料

42. Keywords lignocellulose materials;fuel ethanol;cellulase;hydrolysis;fermentation;

木质纤维素原料;燃料乙醇;纤维素酶;水解;发酵;

43. Investigation on Alcoholic Fermentation with Lignocellulose

木质纤维素发酵酒精的探讨

44. Extracellular Hydroxyl Radical-scavenging Ability of White Rot Fungi on Lignocellulose Substance

木质纤维素基质上的白腐菌胞外羟自由基清除能力

45. lignocellulose waste

木质纤维素废物

46. Lignocellulose material are the most abundant renewable organic resource on the earth.

木质纤维素是地球上最充分的可更新的有机资源。

47. Lignocellulose is a key feedstock for production of bioenergy and biobased products.

木质纤维素是生产生物能源和材料的重要原料。

48. dilute-acid lignocellulose hydrolysates

木质纤维素稀酸水解液

49. dilute-acid hydrolysate of lignocellulose

木质纤维素稀酸水解物

50. Hydrolysates of dilute-acid lignocellulose

木质纤维素稀酸水解糖液

51. Lignocellulose degradation

木质纤维索降解

52. In this paper, The residua of lignocellulose hydrolysis were as raw materials for producing levulinic acid and lignin active carbon. The technology and reaction condition are optimized.

本文对植物纤维素水解渣高温加压水解生产乙酰丙酸和综合利用制木素活性炭的工艺进行了探讨。

53. The emphasis of this article lies in the rencent works done on the effect of the toxic compounds on fermentation, the detoxification of the lignocellulose hydrolysate and yeasts adaption.

本文着重介绍了植物纤维水解液中有毒物质对酵母菌种发酵的影响、水解液的脱毒处理及菌种的驯化等方面的进展。

54. The main cell wall proteins of plant and the potential effects on enzymatic hydrolysis of lignocellulose are reviewed.

本文综述了植物细胞壁中主要蛋白的特征及其与木质纤维素酶解的关系。

55. Study on the specific adsorption of catechin gallates by cedar lignocellulose.

杉树木质纤维素对酯型儿茶素类选择性吸附的研究。

56. According to the characters of the lignocellulose biomass,the research progresses of the pretreatment technology are summarized.

根据纤维质原料的性质,重点介绍了木质纤维原料预处理的方法及其应用现状。

57. It was found that lignocellulose was decreased remarkably after NaOH-treated and biogas production after sodium hydroxide treatment was 78.3% higher than that of untreated one.

氢氧化钠处理后的秸秆，当负荷率为50g/L时，其厌氧消化产气量比未处理的玉米秸秆提高78.3%。随后，对氢氧化钠处理效果实验进行详细研究。

58. Keywords liquefaction;hydrogen-donor solvent;cellulose;lignin;lignocellulose;

液化;供氢溶剂;纤维素;木质素;木质纤维;

59. Keywords fuel ethanol;lignocellulose;cellulolytic strain;mixed microbial species;

燃料酒精;木质纤维素;纤维素分解菌;混合菌群;

60. Biorefinery is a new technique which uses the agriculture waste,starch of plant and lignocellulose substance as raw materials to produce various chemicals,fuel and biomaterials.

生物炼制是一种利用农业废弃物、植物基淀粉和木质纤维素材料为原料,生产各种化学品、燃料和生物基材料的新型技术。

61. Keywords biomass;lignocellulose;cellulose;hemicellulose;acid hydrolysis;pretreatment;

生物质;木质纤维素;纤维素;半纤维素;酸水解;预处理;

62. The key from lignocelluloses to bioethanol is how to produce fermentable sugars effectively by hydrolysis of cellulose.Technologies of lignocellulose hydrolysis remain still to be developed.

生物质纤维素转化能源乙醇技术的关键与瓶颈之一是如何将纤维素水解为可发酵单糖,水解技术尚处于不断发展之中。

63. birch lignocellulose

白桦木质纤维素

64. Keywords birch lignocellulose;ultra-low temperature pretreatment;superfine powder;saccharification;

白桦木质纤维素;超低温处理;超微粉体;糖化;

65. A lot of chemical and biochemical technologies are developed to enhance the efficiency of lignocellulose hydrolysis or to reduce the cost of cellulase.

目前许多学者已针对如何提高木质纤维素酶解效率、降低纤维素酶成本等问题，开展了多种化学、生物技术及工艺耦合的研究。

66. Keywords stover;ethanol;lignocellulose;fermentation;

秸秆;酒精;木质纤维素;发酵;

67. Keywords lignocellulose residue;enzymatic hydrolysis;Rhizopus oryzae;lactic acid fermentation;

纤维废渣;纤维素酶;酶水解;米根霉;乳酸发酵;

68. Keywords lignocellulose;pretreatment;SSF;L lactic acid;

纤维素;预处理;同时糖化发酵（SSF）;L-乳酸;

69. Keywords Cellulose ethanol;lignocellulose;industrialization;bio-refining;co-productiono f ethanol;

纤维素乙醇;木质纤维素;产业化;生物精炼;乙醇联产;

70. STUDY ON ENZYME-PRODUCING PROPERTY OF HYPERTHERMIA MICROORGANISM IN LIGNOCELLULOSE BIODEGRADATION

纤维降解高温微生物的产酶特性研究

71. Keywords ramie;lignocellulose;enzymatic degrading;influential factors;

苎麻;纤维质;酶降解;影响因素;

72. The Photosynthetic Bacteria Culture Using Lignocellulose Hydrolyzate for Bio-Fertilizer Manufacture

菌肥用光合菌在纤维素水解液中的培养

73. Progress in the Studies of Decomposition of Lignocellulose by Brown-Rot Fungi

褐腐真菌木质纤维素降解机制的研究进展

74. Xie J.Ren L.Li W.Sun X, Zhang ZY Study on white rot fungi producing lignocellulose degrading enzymes in liquid state fermentation 2000(z1

谢君.孙迅.任路.张义正侧耳菌与粗毛栓菌在麦草培养基中产生木质纤维素降解酶的研究[期刊论文]-菌物学报2001(5

75. Keywords ethanol production materials;lignocellulose;pretreatment;

酒精生产原料;木质纤维素;预处理技术;

76. Enzymatic hydrolysis of lignocellulose has caught much attention because of its modest reaction conditions, fewer by-products and environmental benignity.

酶法水解工艺具有条件温和、副产物少、环境友好等特点，因而受到广泛重视。

77. The actual development situation of fuel ethanol is reviewed,and the importances of fuel ethanol production from lignocellulose for sustainable development in China are elaborated simultaneously.

阐述了燃料乙醇的发展现状以及由木质纤维原料生产燃料乙醇对我国可持续发展的重要性。

78. Selection and Construction of Composting Consortia for Degrading Lignocellulose Efficiently and Its Capability of Straw Degradation

高效纤维素分解菌复合系的筛选构建及其对秸秆的分解特性

79. Degradation of Lignocellulose and Lindane in Microbial Composting System During Thermophilic Compost Process

高温堆肥中复合菌系对木质纤维素和林丹降解效果的研究