Nitrogen dynamics at undisturbed and burned

第32卷第16期2012年8月生态学报ACTA ECOLOGICA SINICAVol．32，No．16Aug．，2012基金项目：国家自然科学基金项目（31271661）；国家重点基础研究发展计划（973）课题（2009CB118602）；公益性行业（农业）科研专项（201203100）收稿日期：2012-02-27；修订日期：2012-06-03*通讯作者Corresponding author．E-mail ：zlwang@sdau．edu．cn ；jianggm@126．comDOI ：10．5846/stxb201202270263吴光磊，郭立月，崔正勇，李勇，尹燕枰，王振林，蒋高明．氮肥运筹对晚播冬小麦氮素和干物质积累与转运的影响．生态学报，2012，32（16）：5128-5137．Wu G L ，Guo L Y ，Cui Z Y ，Li Y ，Yin Y P ，Wang Z L ，Jiang G M．Differential effects of nitrogen managements on nitrogen ，dry matter accumulation and transportation in late-sowing winter wheat．Acta Ecologica Sinica ，2012，32（16）：5128-5137．氮肥运筹对晚播冬小麦氮素和干物质积累与转运的影响吴光磊1，2，郭立月1，崔正勇1，李勇2，尹燕枰1，王振林1，*，蒋高明1，2（1．山东农业大学作物生物学国家重点试验室，泰安271018；2．中国科学院植物研究所植被与环境变化国家重点实验室，北京100093）摘要：氮素平衡对干物质积累与分配的影响是农业生态系统研究的重要内容，在保障产量前提下减少氮肥施用量可减少环境污染与温室气体排放。

以晚播冬小麦为研究对象，设置4个施氮量水平：0kg /hm 2（N0）、168．75kg /hm 2（N1）、225kg /hm 2（N2）、281．25kg /hm 2（N3），每个施氮量水平下设置2个追氮时期处理：拔节期（S1）、拔节期+开花期（S2），研究了氮肥运筹对晚播冬小麦氮素和干物质积累与转运及氮肥利用率的影响。

全国2018年4月高等教育自学考试英语科技文选试题课程代码：00836parta :vocabularyⅠ. Directions: Add the affix to each word according to the given Chinese, making changes when necessary.(10%)1. relevant 不相干的 1._____________2. hedron 多面体 2._____________3. recur 重新产生 3._____________4.topic 副主题 4._____________5.scan 扫描仪 5._____________6.plant 移植 6._____________7.ceptibility 敏感性7._____________press 压缩的8._____________9.smooth 平滑9._____________10.sell 吹嘘10._____________Ⅱ.Directions: Fill in the blanks, each using one of the given words or phrases below in its proper form.(10%)plug in run out of to the tune of look into a wide range of as to transform into adept at bring into play project oneself into11. She’s very______ making people feel at their ease.12. Even ______ all the resources and staff available would not be likely to help resolve the immediate shortfall in production.13. Before switching on the radio, make sure that the mains lead ______.14. The problem will ______.15. It is the failure of the architect to ______ the mind and spirit of the people who are to experience his designs that causes much of the staccato feeling to be noted in work today.16. Reactors can be used to ______ fertile material ______ fissionable material.17. In order to expand, they will need capital ______ six million dollars.18. When light passes through a prism, it spreads out into ______ colors.19. The aircraft will ______ fuel in another hour.20. ______ your second question, I am afraid I can give you no information at the moment.1Ⅲ. Directions: Fill in each blank with a suitable word given below.(10%)countless or creatures shelter produce through influenceits for relationshipsNo living creature, plant 21 animal, can exist in complete isolation. An animal is bound to depend on other living 22 , ultimately plants, for 23 food supply; it must also depend upon the activities of plants 24 a continued oxygen supply for its respiration. Apart from these two basic 25 it may be affected directly or indirectly in 26 different ways by other plants and animals around it. Other animals prey on it or compete with it for the same food; plants may provide 27 , concealment or nesting material, and so on. Similarly, the animal will 28 its own effects on the surrounding plants and animals and 29 its contribution of manure it may 30 the texture and fertility of the soil.21.______ 22.______ 23.______ 24.______ 25.______26.______ 27.______ 28.______ 29.______ 30.______PART B: TRANSLATIONⅣ. Directions: Translate the following sentences into English, each using one of the given words or phrases below.(10%)manipulate customary arbitrary save from pop into31.在上一世纪，奎宁(quinine)使千千万万人免于得疟疾(malaria)。

Organic Syntheses, Coll. Vol. 2, p.351 (1943); Vol. 19, p.55 (1939).IODOBENZENE[Benzene, iodo-]Submitted by H. J. Lucas and E. R. Kennedy.Checked by John R. Johnson and P. L. Barrick.1. ProcedureIn a 3- or 5-gallon stoneware crock are placed 950 cc. (1130 g., 11.7 moles) of concentrated hydrochloric acid (sp. gr. 1.19), 950 cc. of water, 200 g. (196 cc., 2.15 moles) of aniline, and 2 kg. of ice (Note 1). The mixture is agitated by a mechanical stirrer, and, as soon as the temperature drops below 5°, a chilled solution of 156 g. (2.26 moles) of sodium nitrite in a measured volume (700–1000 cc.) of water is introduced fairly rapidly from a separatory funnel, the stem of which projects below the surface of the reaction mixture. The addition should not be fast enough to cause the temperature to rise to 10° or to cause evolution of oxides of nitrogen. The last 5 per cent of the nitrite solution is added more slowly, and the reaction mixture is tested with starch-iodide paper at intervals until an excess of nitrous acid is indicated.Stirring is continued for ten minutes, and if necessary the solution is filtered rapidly through a loose cotton plug in a large funnel. An aqueous solution of 358 g. (2.16 moles) of potassium iodide is added and the reaction mixture allowed to stand overnight. The mixture is transferred to a large flask (or two smaller flasks) and heated on a steam bath, using an air-cooled reflux condenser, until no more gas is evolved, then allowed to cool and stand undisturbed until the heavy organic layer has settled thoroughly.A large part of the upper aqueous layer is siphoned off, and discarded (Note 2). The residual aqueous and organic layers are made alkaline by the cautious addition of strong sodium hydroxide solution (100–125 g. of solid technical sodium hydroxide is usually required) and steam-distilled at once. The last one-third of the steam distillate is collected separately and combined with the aqueous layer separated from the earlier portions of the distillate. This mixture is acidified with 5–10 cc. of concentrated sulfuric acid and steam-distilled again. The iodobenzene from this operation is combined with the main portion and dried with 10–15 g. of calcium chloride(Note 3) and (Note 4). Distillation under reduced pressure gives 327–335 g. (74–76 per cent of the theoretical amount) of iodobenzene, b.p. 77–78°/20 mm. or 63–64°/8 mm. (Note 5).2. Notes1. If more ice is used a portion remains unmelted after the diazotization is completed.2. If a good separation has been made not more than 1–2 g. of iodobenzene is lost with the upper layer.3. An appreciable amount of iodobenzene is retained by the solid calcium chloride. By treating the spent drying agent with water 8–12 g. of iodobenzene can be recovered.4. The crude iodobenzene weighs 350–355 g. (80 per cent of the theoretical amount) and is pure enough for many purposes without redistillation.5. If the distillation is carried too far, the distillate will be colored.3. DiscussionThe preparation of iodobenzene by iodination of benzene, with iodine and nitric acid, and a survey of preparative methods have been given in an earlier volume.1 The present procedure, based upon the method of Gattermann,2 gives a purer product.This preparation is referenced from:z Org. Syn. Coll. Vol. 5, 660z Org. Syn. Coll. Vol. 5, 665References and Notes. Syn. Coll. Vol. I, 1941, 323.2.Gattermann-Wieland, "Laboratory Methods of Organic Chemistry," p. 283. Translated from thetwenty-fourth German edition by W. McCartney, The Macmillan Company, New York, 1937.AppendixChemical Abstracts Nomenclature (Collective Index Number);(Registry Number)oxides of nitrogencalcium chloride (10043-52-4)sulfuric acid (7664-93-9)hydrochloric acid (7647-01-0)Benzene (71-43-2)aniline (62-53-3)sodium hydroxide (1310-73-2)nitric acid (7697-37-2)potassium iodide (7681-11-0)sodium nitrite (7632-00-0)nitrous acid (7782-77-6)iodine (7553-56-2)Iodobenzene,Benzene, iodo-(591-50-4)Copyright © 1921-2005, Organic Syntheses, Inc. All Rights Reserved。

氮气物理吸附英文Nitrogen Gas Physical AdsorptionNitrogen gas, with its chemical formula N2, is a colorless, odorless, and inert gas that makes up approximately 78% of the Earth's atmosphere. This ubiquitous gas has a wide range of applications, from industrial processes to medical and scientific research. One of the fundamental properties of nitrogen gas is its ability to undergo physical adsorption, a process that has significant implications in various fields.Physical adsorption, also known as physisorption, is a phenomenon where molecules or atoms of a substance (the adsorbate) accumulate on the surface of another substance (the adsorbent) without forming chemical bonds. This process is driven by the attractive forces between the adsorbate and the adsorbent, such as van der Waals forces and electrostatic interactions. In the case of nitrogen gas, the physical adsorption of N2 molecules onto various adsorbents has been extensively studied and has found numerous applications.One of the primary applications of nitrogen gas physical adsorption is in the field of gas separation and purification. Nitrogen gas can beselectively adsorbed onto specific adsorbents, such as activated carbon, zeolites, or metal-organic frameworks (MOFs), while other gases, such as oxygen or carbon dioxide, are not adsorbed as strongly. This selective adsorption allows for the efficient separation and purification of nitrogen gas from air or other gas mixtures. This process is particularly useful in industrial settings, where high-purity nitrogen gas is required for various applications, such as in the electronics industry, food packaging, or the production of chemicals.Another important application of nitrogen gas physical adsorption is in the area of gas storage and transportation. Nitrogen gas can be adsorbed onto porous adsorbents, such as activated carbon or metal-organic frameworks, to create high-density storage systems. These adsorbent-based storage systems can store a significantly larger amount of nitrogen gas compared to traditional compressed gas cylinders, making them more efficient and cost-effective for transportation and storage. This technology is particularly relevant in applications where large volumes of nitrogen gas are required, such as in the industrial or medical sectors.The physical adsorption of nitrogen gas is also crucial in the field of catalysis. Many catalytic processes involve the interaction of reactants with the surface of a catalyst, and the adsorption of nitrogen gas can provide valuable information about the catalyst's surface properties and accessibility. By studying the physicaladsorption of nitrogen gas on catalyst surfaces, researchers can gain insights into the catalyst's pore structure, surface area, and other characteristics that are essential for optimizing catalytic performance.In the field of material science, the physical adsorption of nitrogen gas is used to characterize the porous structure and surface properties of various materials, such as zeolites, activated carbon, and metal-organic frameworks. The analysis of nitrogen adsorption-desorption isotherms, which describe the relationship between the amount of nitrogen adsorbed and the pressure at a constant temperature, can provide information about the material's surface area, pore size distribution, and other structural features. This information is crucial for the development and optimization of materials with specific applications, such as in catalysis, adsorption, or energy storage.Furthermore, the physical adsorption of nitrogen gas is widely used in the field of environmental science and engineering. Nitrogen-based compounds, such as nitrates or nitrites, can be adsorbed onto various adsorbents, including activated carbon or clay minerals, for the removal of these pollutants from water or soil. This process is particularly important in the treatment of wastewater or the remediation of contaminated sites, where the removal of nitrogen-containing compounds is crucial for environmental protection.In conclusion, the physical adsorption of nitrogen gas is a fundamental phenomenon with a wide range of applications across various scientific and technological fields. From gas separation and purification to gas storage, catalysis, material characterization, and environmental remediation, the understanding and manipulation of nitrogen gas physical adsorption have been instrumental in advancing scientific knowledge and driving technological innovation. As research in this field continues to evolve, new and exciting applications of nitrogen gas physical adsorption are likely to emerge, further expanding its impact on our modern world.。

定额市鞍钢阳光实验学校2014高考英语阅读理解基础极品训练题（14）及答案阅读理解----------BAir pollution is damaging 60% of Europe’s prime wildlife sites in meadows, forests and bushes, according to a new report.A team of EU scientists said nitrogen emissions(氮排放) from cars, factories and farming were threatening biodiversity. It’s the second report this week warning of the on-going risks and threats linked to nitrogen pollution.Nitrogen in the atmosphere is harmless in its inert(惰性的) state, but the report says reactive forms of nitrogen, largely produced by human activity, can be a menace to the natural world.Emissions mostly come from vehicle exhausts(排气), factories, artificial fertilizers(肥料) and animal waste from intensive farming. The reactive nitrogen they emit to the air disrupts the environment in two ways: It can make acidic soils too acidic to support their previous mix of species. But primarily, because nitrogen is a fertilizer, it favors wild plants that can maximize the use of nitrogen to help them grow.In effect, some of the nitrogen spread to fertilize crops is carried in the atmosphere to fertilize weeds, possibly a great distance from where the chemicals were first applied.The effects of fertilization and acidification favor common aggressive species like grasses, brambles and nettles. They harm more delicate species like mosses(苔藓), and insect-eating sundew plants.The report said 60% of wildlife sites were now receiving a critical load of reactive nitrogen. The report’s lead author, Dr Kevin Hi cks from the University of York’s Stockholm Environment Institute (SEI), told BBC News that England’s Peak District had a de finitely low range of species as a result of the reactive nitrogen that fell on the area.“Nitrogen creates a rather big problem tha t seems to me to have been given too little attention,” he said. “Governments are responsible for protecting areas like this, but they are clearly failing.”He said more research was needed to understand the knock-on effects for creatures from the changes in vegetation accidentally caused by emissions from cars, industry and farms.At the conference, the representative s agreed “The Edinburgh Declaration on Reactive Nitrogen”. The document highlights the importance of reducing reactive nitrogen emissions to the environment, adding that the benefits of reducing nitrogen outweigh the costs of taking action.5. The underlined word “menace” is used to express that the reactivenitrogen, largely produced by human activity can be ___________.A. frighteningB. threateningC. uniqueD.unusual6. We can infer from the passage that _________.A.it’s harmless to have reactive nitrogen existing in the atmosphereB.reactive nitrogen emissions help aggressive species less thancropsC.the harm to those delicate species has a negative impact onbiodiversityD.reactive nitrogen can fertilize soils and keep their biodiversity7. The team of EU scientists released the second report of nitrogenemissions this week when __________.A.no action was taken to stop nitrogen emissionernments were willing to protect areas harmed by nitrogenC.“The Edinburgh Declaration on Reactive Nitrogen” was agreedD.nitrogen emissions were threatening wildlife sites’biodiversity8. Which of the following would be the best title for the passage?A. Keeping Away From Nitrogen EmissionsB. Stopping NitrogenEmissionsC. Air Pollution Damaging Europe’s WildlifeD. SavingEurope’s Wildlife【参考答案】5、B 6—8、CDC阅读理解-----------D“Mom, I have cancer.”These four words catapulted my son and me on a journey that lasted two years. On that dat I felt a wave of paralyzing fear.Scott was the oldest of my four children. He was 33 years old and a successful assistant principal at SamRayburn Hifht School in Pasadena, Texas. He and his wife Carolyn were busy raising four active children. Scott was 6’2’’, weighed 200 pounds and had ne ver been sick a day in his life.A few month earlier a mole（痣）on his neck had changed color. “Dr.Warner called,” Scott said that spring morning. “It’s melanoma.（黑素瘤）” I tried to comfort him, naming all the people I knew who had survived skin cancer. Yet, I felt small tentacles of fear begin to wrap around my chest.Our next stop was MDAnderson, the famous cancer hospital in Houston. Scott had surgery at the end of May and was scheduled for radiation treatments over the summmer recess. “There is an 80 percen t chance it won’t reoccur,” the doctors said. At the end of summer, all his tests came back negative and Scott was back at school in the fall. However, in December, Scott discovered a lump on his neck. It was examined and the result came back “malignant.（恶性的）” We now relized that Scott fell into the 20 percent category. I could feel the tentacles tightening around my chest. He entered the hospital for an aggressive treatment,a combination of interferon and interleukin.After five months of treatment, he had radical surgery on his neck. The test results were encourging, only three of the 33 lymph nodes（淋巴结） removed were malignant. We were very hopefull.For the next six months, Scott’s follow-up visits went well. Then in October, X-ray revealed a spot on his lung. The spot was removed during surgery and the doctors tried to be optimistic. It was a daily battle to control the fear and panic each setback brought.In January, he was diagnosed as having had a “disease explosion.” The cancer had spread to his lungs, spine and liver and he was given three to six months to live. There were times during this period when I felt like I was having a heart attack. The bands constricting my chest made breathing difficult.When you watch your child battle cancer, you experience a roller coaster of emotions. There are moments of hope and optimism but a bad test result or even an unusual pain can bring on dread and panic.Scott was readmitted to the hospital for one last try with chemotherapy. He died, quite suddenly, just six weeks after his last diagnosis. I was completely destroyed. I had counted on those last few months.The next morning I was busy notifying people and making funeral arrangements. I remember having this nagging feeling that something was physically wrong with me. It took a moment to realize that the crushing sensation in my chest was gone. The thing every parent fears the most had happened. My son was gone. Of course, the fear had been replaced by unbearable sorrow.After you lose a child, it is so difficult to go on. The most minimal tasks, combing your hair or taking a shower, becoming monumental. For months I just sat and stared into space. That spring, the trees began to bloom; flowers began to pop up in my garden. Friendswood was coming back to life but I was dead inside.During those last weeks, Scott and I often spoke about life and death. Fragments of those conversations kept playing over and over in my mind.“Don’t let this ruin your life, Mom.”“Make sure Dad re models his workshop.”“Please, take care of my family.”I remember wishing I could have just one more conversation with him.I knew what I would say, but what would Scott say? “I know how much you love me, Mom. So just sit on the couch and cry.” No, I knew him better than that. Scott loved life and knew how precious it is. I could almost hear his voice saying, “Get up Mom, Get on with your life. It’s too valuable to waste.”That was the day I began to move forward. I signed up for a cake decorating class. Soon I was making cakes for holidays and birthdays.My daughter-in-law told me about a writing class in Houston. I hadn’t written in years, but since I was retired I decided it be time to start again. The local college advertised a Life Story Writing class that I joined. There I met women who had also lost their children. The Poet Laureate of Texas was scheduled to speak at our local Barnes and Noble.I attended and joined our local poetry society. I never dreamed that writing essays and poems about Scott could be so therapeutic. Several of those poems have ever been published. In addition, each group brought more and more people into my life..I don’t believe you ever recover from the loss of a child. Scott is in my heart and mind every day. However, I do believe you can survive.Scott fought so bravery to live and he never gave up. He taught me that life is a gift that should be cherished, not wasted. It has taken years to become the person I am today. The journey has been a difficult , painful process but certainly worth the effort and I know that my son would be proud.55．What might be the best title of the passage ?A．Life is valuable B．Grieving and Recovery[来源:]C．Love and sorrow D．Alive or dead56．How old was Scott probably when he died?A．33 B．35 C．37 D．4057．What does the underlined sentence “ The bands constricting my chest made breathing difficult” probably imply?A．It implies that Scott’s mother was likely to have a heart attack. B．It implies that there was something wrong with Scott’s mother’s chest.C．It implies that Scott’s mother was very upset and panic because of Scott’s severe illness.D．It implies that the cancer had spread to her chest just like her son.58．Which of the followi ng statements best shows the author’s feeling about Scott’s dath?A．It was a daily battle to control the fear and panic each setback brought.B．She felt a wave of fear.C．She felt a feeling of fear begin to wrap around her chest.D．The fear had been replaced by unbearable sorrow.59．From Scott and his mother’s conversation, we can know that Scott is ________.A．considerable B．humorous C．determined D．sensitive60．The author intends to tell us that___________.A．it takes a long time to make a person recover from the shock of losing a childB．Scott is proud of his motherC．life is full of happiness and sorrow.D．We’d better make our life count instead of counting your days.【答案】阅读理解(共20小题；每小题2分，满分40分)阅读下列短文，从每题所给的A、B、C、D四个选项中，选出最佳选项。

高中英语真题:2015高考英语短文改错及阅读理解训练（6）文中共有10处语言错误，每句中最多有两处。

每处错误仅涉及一个单词的增加、删除或修改。

注意:1.每处错误及其修改均仅限一词;2.只允许修改10处，多者(从第11处起)不计分。

My friend Dick was seven years old, and her sister Katherine w as five. One day their mother take them to their aunt’s to play w hile she went to the city buy some new clothes. They played for a hour, and then their aunt took Dick into the kitchen. She gave him a nicely cake and a knife and said, “Dick, cut this cake in h alf, and give one of the piece to your sister. But remembering to do it like a gentleman.”“How do gentlemen do it？” Dick asked.“They always give the bigger one piece to the other person,” a nswered his aunt. Dick thought up this for a few seconds. Then he took the cake to his sister but said to her, “Cut this cake in h alf, Katherine.”【参考答案】4.My friend Dick was seven years old, and her (his) sister Katheri ne was five. One day their mother take (took) them to their aunt’s to play while she went to the city ∧ (加to ) buy some new clothes. They played for a (an) hour, and the n their aunt took Dick into the kitchen. She gave him a nicely (ni ce) cake and a knife and said, “Dick, cut this cake in half, and gi ve one of the piece (pieces) to your sister. But remembering (re member) to do it like a gentleman.”“How do gentlemen do it？”Dick asked. “They always give the bigger one piece to the other person,” answered his aunt. Dick thought up (about) this for a f ew seconds. Then he took the cake to his sister but (and) said t o her, “Cut this cake in half, Katherine.”5.短文改错下面短文中有10处语言错误。

余铭，梁钻好，陈海强，等. 低频电场冰温保鲜对虾的水分迁移规律及品质变化的影响[J]. 食品工业科技，2022，43（19）：372−378.doi: 10.13386/j.issn1002-0306.2021100109YU Ming, LIANG Zuanhao, CHEN Haiqiang, et al. Water Migration and Quality Change of Prawn Preserved under Controlled Freezing-point Storage Combined with Low Frequency Electric Field Technology[J]. Science and Technology of Food Industry, 2022,43(19): 372−378. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2021100109· 贮运保鲜 ·低频电场冰温保鲜对虾的水分迁移规律及品质变化的影响余　铭1,2，梁钻好1,2，陈海强1,2，梁凤雪1,2，敖菲菲1,2，邓锦杰1,2（1.阳江职业技术学院食品与环境工程系，广东阳江 529566；2.广东省食品低温加工工程技术研究中心，广东阳江 529566）摘　要：为探明低频电场延长冰温保鲜对虾货架期的可行性。

在冰温基础上施加低频电场（LFEF+冰温）保鲜对虾，监测贮藏期间对虾的菌落总数和总挥发性盐基氮（TVB-N ）含量变化，分析微观结构变化，通过低场核磁共振（LF-NMR ）技术探究虾肉和虾头的水分迁移和变化规律，并与常规冰温保鲜作对照。

结果表明：贮藏第9 d ，LFEF+冰温组的菌落总数和TVB-N 含量开始表现出显著低于对照组的趋势（P <0.05）；第12 d 后，LFEF+冰温组的菌落总数比对照组低一个数量级；其TVB-N 含量在第11 d 比对照组显著低36%（P <0.05），货架期可达13 d 以上。

工商管理专业学位外语考试模拟试题2010.10一、语音题（每空1分，共10分）01、notice A. stomachs B. houses C. mouths D. reasonable['nəutis] ['stʌməks] ['hauziz] [mauθ] ['ri:zənəbl]02、winkle A. windy B. drink C. footprint D. interesting['wiŋkl] ['windi] [driŋk] ['futprint] [ˈɪntrɪstɪŋ] 03、shook A. shoot B. food C. shoe D. wood[ʃuk] [ʃu:t] [fu:d] [ʃu:] [wud]04、occasionally A. population B. Russian C. questionD. television[ə'keiʒənəli] [pɔpju'leiʃən] ['rʌʃən] ['kwestʃən] ['teli,viʒən]05、pressure A. directly B. oxygen C. absence D. camera['preʃə] ['direkli] 'ɔksidʒən] ['æbsəns] ['kæmərə]06、float A. flower B. brown C. hometown D. bellows[fləut] ['flauə] [braun] ['həʊmtaʊn] ['beləuz] 07、bulletin A. bury B. Prussian C. bullet D. punishment['bulitin]['beri]['prʌʃən] ['bulit] ['pʌniʃmənt]08、breach A. break B. theatre C. meadow D. least[bri:tʃ] [breik] ['θiətə] ['medəu] [li:st] 09、opposite A. companion B. balloon C. stroll D. historic['ɔpəzit] [kəm'pænjən] [bə'lu:n] [strəul] [his'tɔrik]10、scatter A. laboratory B. separate C. gravity D. various['skætə] [lə'bɔrətəri] ['sepərit] ['ɡræviti] ['vεəriəs]11、essay A. holiday B. says C. away D. mayor[e'sei] ['hɔlədi] [sez] [ə'wei] ['mεə]12、singer A. anger B. tongue C. eager D. single['siŋə] ['æŋɡə] [tʌŋ]['i:ɡə] ['siŋɡl]13、splendid A. watched B. refused C. wretched D. impressed['splendid] [wɔtʃd] [ri'fju:z ] ['retʃid]['impres ]14、owner A. powerful B. brown C. narrow D. power['əunə] ['pauəful] [braun] ['nærəu] [pauə] 15、latent A. squirrel B. centigrade C. level D. mend['leitənt] ['skwə:rəl] ['sentiɡreid] ['levəl] [mend] 16、flood A. loose B. blood C. moon D. noon[flʌd] [lu:s] [blʌd] [mu:n] [nu:n]17、mud A. music B. human C. huge D. lung[mʌd] ['mju:zik] ['hju:mən] [hju:dʒ] [lʌŋ]18、creature A. effect B. energy C. reduce D. belief['kri:tʃə] [i'fekt] ['enədʒi] [ri'dju:s] [bi'li:f] 19、mountain A. explain B. remain C. campaign D. captain['mauntin] [ik'splein] [ri'mein] [kæm'pein]['kæptin]20、cookie A. frog B. oxygen C. wolf D. obvious['kuki] [frɔɡ] ['ɔksidʒən] [wulf] ['ɔbviəs]21、period A. request B. perseverance C. RecognizeD. require['piəriəd] [ri'kwest] [pə:si:'viərəns] ['rekəɡnaiz] [ri'kwaiə]22、geography A. regret B. envy C. remark D. deck[dʒi'ɔɡrəfi] [ri'ɡ ret] ['envi] [ri'mɑ:k] [dek] 23、replied A. entered B. asked C. stepped D. added[ri'plaid] ['entəd] [æskt] [stept]['ædid]24、counter A. country B. south C. tough D. enough['kauntə] ['kʌntri] [sauð] [tʌf] [i'nʌf] 25、eyebrow A. town B. follow C. slow D. fellow['aibrau] [taun] ['fɔləu] [sləu] ['feləu] 26、schoolyard A. coo B. cook C. poor D. childhood['sku:ljɑ:d] [ku:] [kuk] [pɔ:]['tʃaildhud]27、master A. Alsace B. tiresome C. impress D. unable['mæstə] ['a:əθas] ['taiəsəm] ['impres][ʌn'eibl]28、twinkle A. windy B. drink C. footprint D. interesting['twiŋkl] ['windi] [driŋk] ['futprint][ˈɪntrɪstɪŋ]二、单选题（每空1.5分，共30分）01、Since your supervisor has __ specified ___ the time for a talk, you must make sure that you will be there on time.因为你的上司有特定的时间谈谈,你必须保证你会准时到那儿的。

Generating nitrogen on-site provides many benefits to users, who are often unaware of hidden potential issues and additional requirements, when using gas cylinders.10-15% sent back unused - wasted money.PSA NITROGEN GENERATORSGAS CYLINDER DISADVANTAGESNITROSourceWASTED GAS COSTIMPURITIES SPOILT PROCESSES/PRODUCTSImpurities desorb from the cylinder wall below 30 barg, coating equipment and pipework.Ruining process or product – increasing downtime and cost.INSPECTION REQUIREMENTS Time consuming and potential for dangerous errors (safety).At least 15 checks every time a cylinder is changed – time consuming, liability issues.Monitoring deliveries and stock- labour intensive.Ruining process or product - increasing downtime and cost.Gas could run out or spoil process/product or need to repeat task.One in use, one empty, one full.Additional cost to certify employees to work with compressed gas cylinders.Personnel have to be trained in cylinder handling and regulator inspection every 3 years – Additional cost and liability.Heavy, manual handling, stored volume of asphyxiant.High pressure cylinders need specialist handling equipment – cost of handling equipment, possible injuries, additional risk.Additional cost, takes up valuable space. Requires maintenance and checking.ROGUE CYLINDERSNO INDICATION OF VOLUME REMAINING OR ACTUAL OXYGEN CONTENT 3 CYLINDERS POTENTIALLY RENTED FOR EVERY APPLICATION TRAINING SAFETY INSURANCE AND HSE CONCERNSREQUIRE SPECIALIST RACKS FOR STORAGE。

tpo53三篇托福阅读TOEFL原文译文题目答案译文背景知识阅读-1 (2)原文 (2)译文 (5)题目 (8)答案 (16)背景知识 (18)阅读-2 (21)原文 (21)译文 (24)题目 (27)答案 (34)背景知识 (36)阅读-1原文Evidence of the Earliest Writing①Although literacy appeared independently in several parts of the prehistoric world, the earliest evidence of writing is the cuneiform Sumerian script on the clay tablets of ancient Mesopotamia, which, archaeological detective work has revealed, had its origins in the accounting practices of commercial activity. Researchers demonstrated that preliterate people, to keep track of the goods they produced and exchanged, created a system of accounting using clay tokens as symbolic representations of their products. Over many thousands of years, the symbols evolved through several stages of abstraction until they became wedge-shaped (cuneiform) signs on clay tablets, recognizable as writing.②The original tokens (circa 8500 B.C.E.) were three-dimensional solid shapes—tiny spheres, cones, disks, and cylinders. A debt of six units of grain and eight head of livestock, for example might have been represented by six conical and eight cylindrical tokens. To keep batches of tokens together, an innovation was introduced (circa 3250 B. C. E.) whereby they were sealed inside clay envelopes that could be brokenopen and counted when it came time for a debt to be repaid. But because the contents of the envelopes could easily be forgotten, two-dimensional representations of the three-dimensional tokens were impressed into the surface of the envelopes before they were sealed. Eventually, having two sets of equivalent symbols—the internal tokens and external markings—came to seem redundant, so the tokens were eliminated (circa 3250-3100 B.C.E.), and only solid clay tablets with two-dimensional symbols were retained. Over time, the symbols became more numerous, varied, and abstract and came to represent more than trade commodities, evolving eventually into cuneiform writing.③The evolution of the symbolism is reflected in the archaeological record first of all by the increasing complexity of the tokens themselves. The earliest tokens, dating from about 10,000 to 6,000 years ago, were of only the simplest geometric shapes. But about 3500 B.C.E., more complex tokens came into common usage, including many naturalistic forms shaped like miniature tools, furniture, fruit, and humans. The earlier, plain tokens were counters for agricultural products, whereas the complex ones stood for finished products, such as bread, oil, perfume, wool, and rope, and for items produced in workshops, such as metal, bracelets, types of cloth, garments, mats, pieces of furniture, tools, and a variety of stone and pottery vessels. The signs marked onclay tablets likewise evolved from simple wedges, circles, ovals, and triangles based on the plain tokens to pictographs derived from the complex tokens.④Before this evidence came to light, the inventors of writing were assumed by researchers to have been an intellectual elite. Some, for example, hypothesized that writing emerged when members of the priestly caste agreed among themselves on written signs. But the association of the plain tokens with the first farmers and of the complex tokens with the first artisans—and the fact that the token-and-envelope accounting system invariably represented only small-scale transactions—testifies to the relatively modest social status of the creators of writing.⑤And not only of literacy, but numeracy (the representation of quantitative concepts) as well. The evidence of the tokens provides further confirmation that mathematics originated in people’s desire to keep records of flocks and other goods. Another immensely significant step occurred around 3100 B.C.E., when Sumerian accountants extended the token-based signs to include the first real numerals. Previously, units of grain had been represented by direct one-to-one correspondence―by repeating the token or symbol for a unit of grain the required number of times. The accountants, however, devisednumeral signs distinct from commodity signs, so that eighteen units of grain could be indicated by preceding a single grain symbol with a symbol denoting “18.”Their invention of abstract numerals and abstract counting was one of the most revolutionary advances in the history of mathematics.⑥What was the social status of the anonymous accountants who produced this breakthrough? The immense volume of clay tablets unearthed in the ruins of the Sumerian temples where the accounts were kept suggests a social differentiation within the scribal class, with a virtual army of lower-ranking tabulators performing the monotonous job of tallying commodities. We can only speculate as to how high or low the inventors of true numerals were in the scribal hierarchy, but it stands to reason that this laborsaving innovation would have been the brainchild of the lower-ranking types whose drudgery is eased.译文最早文字的证据①虽然读写能力是在史前世界的几个地方分别出现的，但书写的最早证据是古代美索不达米亚泥板上的苏美尔楔形文字，根据考古探查工作揭示，它起源于商业活动的会计实践。

分析测试新成果 (39 ~ 46)惰气熔融-红外吸收/热导法同时测定无烟煤中氮和氢王　琳1，王　楠1，沈峰满2（1. 东北大学 分析测试中心，辽宁 沈阳　110819；2. 东北大学 冶金学院，辽宁 沈阳　110819）摘要：首次使用惰气熔融-红外吸收/热导法实现无烟煤中氮、氢元素的同时、快速、准确测定. 探究分析条件，发现当称样量为0.030 0 g ，分析功率为5 500 W ，氮元素的积分延迟时间为15 s ，集成时间为55 s ，氢元素的积分延迟时间为5 s ，集成时间为85 s ，且使用石墨套埚时，氮氢元素的释放最完全、合理. 方法中氮、氢校准曲线的相关系数分别为0.994 9、0.994 0，检出限分别为0.321%、0.189%，定量限分别为0.326%、0.194%，精密度分别为3.60%、0.63%，满足线性关系及方法要求. 惰气熔融-红外吸收/热导法重复性好、高效便捷、操作和维护简单，可用于无烟煤中氮、氢元素的定量检测.关键词：惰气熔融；红外吸收/热导法；无烟煤；氮；氢中图分类号：O657. 3 文献标志码：B 文章编号：1006-3757（2024）01-0039-08DOI ：10.16495/j.1006-3757.2024.01.007Simultaneous Determination of Nitrogen and Hydrogen in Anthracite by Inert Gas Melting-Infrared Absorption/Thermal Conductivity MethodWANG Lin 1， WANG Nan 1， SHEN Fengman2（1. Analysis and Measurement Centre , Northeastern University , Shenyang 110819, China ；2. School ofMetallurgy , Northeastern University , Shenyang 110819, China ）Abstract ：The contents of nitrogen and hydrogen in anthracite were simultaneously, rapidly and accurately determined by the inert gas melting-infrared absorption/thermal conductivity method. A series of experiments were studied. The results indicated that the most complete and reasonable release of nitrogen and hydrogen was achieved when the sample was 0.030 0 g, the analysis power was 5 500 W, the integration delay time of nitrogen was 15 s, the integration time of nitrogen was 55 s, the integration delay time of hydrogen was 5 s, the integration time of hydrogen was 85 s, and the graphite sleeve crucible was used. The correlation coefficients of calibration curves of nitrogen and hydrogen were 0.994 9and 0.994 0, respectively. The limits of detection were 0.321% and 0.189%, the limits of quantification were 0.326% and 0.194%, and the precision were 3.60% and 0.63%, respectively, which met the requirements of linearity and method. The inert gas melting-infrared absorption/thermal conductivity method is reproducible, efficient and convenient, easy to operate and maintain, and can be used for the quantitative determination of nitrogen and hydrogen in anthracite.Key words ：inert gas melting ；infrared absorption/thermal conductivity method ；anthracite ；nitrogen ；hydrogen自2020年我国提出碳达峰、碳中和的发展目标以来[1]，我国的能源、经济等发展始终围绕碳排放、绿色清洁等话题. 煤是工业原料之一，素来被称为“工业之母”，是世界工业、制造业、经济、民生等的重要支撑，其用途广泛，在新材料制备、化工生产、生活供暖、交通出行、发电等方面有着不可替代的作用. 我国属于煤矿矿产丰富的国家[2]，煤、石油、天然气是重要的能源，特点是“富煤、贫油、少气”[3].收稿日期：2023−10−11；　修订日期：2023−12−18.基金项目：国家自然科学基金资助项目 (51974073) [National Natural Science Foundation of China (51974073)]作者简介：王琳（1990−），女，实验师，主要从事气体成分分析等化学分析，E-mail ：****************.第 30 卷第 1 期分析测试技术与仪器Volume 30 Number 12024年1月ANALYSIS AND TESTING TECHNOLOGY AND INSTRUMENTS Jan. 2024煤根据品种及品质的不同，分为烟煤、无烟煤、焦炭等，并应用于不同行业，其中无烟煤因其燃烧无烟、煤化程度高、含碳量高、热值高、挥发分低等特点，普遍用于燃料及燃料电池、先进碳材料[4-7]、催化剂[8]、吸附剂[9-10]、滤料、民用煤等. 而据统计显示，我国空气污染源中的粉尘、PM2.5、SO2及NO x等大部分来自于民用煤燃烧的排放[11]，因此加强对无烟煤的质量监测，是提升煤炭质量、发展低碳与绿色能源的重要环节.煤炭的检测标准溯源到上世纪60年代，检测指标一般包括工业分析[12]（水分、灰分、挥发分、固定碳）、元素分析[13-15]（C、S、O、N、H）、有价元素分析[16-17]（As、Ga、Se、Ge等）、阴离子[18]（氟等）等. 其中无烟煤中的氮元素在燃烧后会形成NO x，对人类及居住环境污染影响较大[11]. 无烟煤中氢元素含量的多少，代表了热值的大小. 因此准确快速测定无烟煤中氮、氢含量对煤炭质量控制，煤炭行业的检验检测、标准制定、能源开发及环境保护等均具有重要意义.对于无烟煤中氮、氢元素的检测，通常使用半微量开氏法和半微量蒸汽法[19]、高温燃烧-检测器测定法[14, 20]测定无烟煤中的氮含量，采用三节炉法、二节炉法[13]、电量-重量法[21]、高温燃烧-检测器测定法[14]测定无烟煤中的氢含量. 其中三节炉法、二节炉法、电量-重量法均存在硫、氯等元素的干扰，需使用铬酸铅、银丝、二氧化锰等试剂消除干扰，污染较大且成本高. 随着科技的进步，仪器法逐渐被用于测定无烟煤中的氮、氢元素含量，现有的仪器法[22]原理是将无烟煤在氧气下燃烧，对燃烧生成的H2O、N2气体进行检测. 但该法存在燃烧炉/管升降温时间长、分析时间长、维护复杂、耗材昂贵等缺点. 而以惰气熔融-红外吸收/热导法为分析原理设计的氧氮氢分析仪通常用于陶瓷、粉末[23]、钢铁[24]等无机材料中氧、氮、氢元素的测定，并以快速、精准的优势成为冶金、材料等领域以及检验检测机构在气体元素分析方面的常用仪器. 但目前为止，未见其应用于无烟煤类产品的检测工作中，其在使用中无需强酸、重金属等试剂，具有无需等待升降温、分析时间短、样品前处理简易、维护相对简单等优势，满足绿色、安全、快速、准确分析的要求，因此本文首次尝试将惰气熔融-红外吸收/热导法应用于无烟煤中氮、氢元素的检测.1　试验部分1.1　仪器与试剂氧氮氢分析仪：美国力可公司，ONH836；天平：赛多利斯，SQP；石墨套埚（内坩埚加外坩埚）、石墨标准坩埚、镍嚢，LECO公司；有机元素分析仪：德国元素公司，Vario MACRO cube.氦气（99.999%），氮气（99.5%），沈阳顺泰特种气体有限公司；无烟煤标准物质：ZBM093、ZBW112A、ZBM095A，济南众标科技有限公司生产；GBW11104j，国家煤炭质量监督检验中心；GBW11108o，山东省冶金科学研究院. 对氨基苯磺酰胺（C6H8N2O2S）、WO3，德国元素公司；未知样品为某学生客户日常送检的无烟煤样品.1.2　试验原理在惰性气体氦气保护下，样品置于上下电极间的石墨坩埚中，经过坩埚脱气、吹扫、脉冲炉通电，上、下电极及石墨坩埚形成电路并加热，使待测样品完全熔融，N、H元素分别以N2、H2分子形式释放，随载气氦气流经热的氧化铜催化剂，H2被完全氧化成H2O，N2、H2O一起进入红外检测池，根据H2O的特征红外吸收波长，检测得到氢元素的含量，之后H2O被高氯酸镁等过滤试剂吸收，N2进入热导检测池完成氮元素的测定，其原理图如图1所示.样品上电级红外检测池检测 H2O热导检测池检测 N2坩埚下电极脉冲熔融炉N2N2H2催化剂H2OH2O图1　氧氮氢分析仪测定氮、氢的工作原理图Fig. 1　Working principle diagram ofOxygen/Nitrogen/Hydrogen Analyzer determined nitrogenand hydrogen1.3　试验方法1.3.1　准备工作将标准物质、待测样品置于110 ℃洁净的烘箱中烘干2 h，保证粒度在0.074 mm以下，然后再置40分析测试技术与仪器第 30 卷于干燥器中冷却备用.对氧氮氢分析仪进行彻底维护，包括上电极、下电极、投样口的清扫清洁，催化剂、过滤试剂等试剂的更换，并通过漏气检查，保证仪器的气密性.1.3.2　试验步骤打开稳压电源、氧氮氢分析仪主机及软件，将下电极升高，在氦气保护模式下进行仪器预热至少1 h，预热完成后打开氦气至流速为450 mL/min，开通冷却水，使检测器保持在稳定的工作温度. 本方法以镍嚢及空白石墨套锅作为空白，分别称取0.010 0~0.100 0 g（精确到±0.000 3 g）的样品，小心倾倒于镍嚢内，等待投样，设置4 500~6 000 W的分析功率，对比石墨套埚与石墨标准坩埚的分析效果，分别设置0~15 s的分析延迟时间、50~85 s数据集成时间等仪器参数. 开始测试后进行投放样品、取下坩埚、更换新的内坩埚、脱气、吹扫等操作，依次进行空白、标准物质及未知样品的测试，建立标准曲线，并对方法进行检出限、定量限、精密度等试验验证.1.3.3　未知样品对比试验本文使用有机元素分析仪作为未知样品测试的对比方法，并命名为方法1. 对有机元素分析仪（CHNS模式）的燃烧管进行清理并更换试剂及灰分坩埚，还原管内铜及银丝重新装填，酒精擦拭干净后放回到炉子内，通高纯氦气，流速为600 mL/min，室温检漏通过后，分别升至1 150、850 ℃工作温度下吹扫4 h后进行试验. 使用仪器自带标准曲线，以75 mg的锡纸包裹，称取25 mg的对氨基苯磺酰胺作为“run”和漂移标准物质进行曲线校正，待测样品称样量为50 mg，加入WO3助熔，75 mg锡纸包裹，使用工具压除空气后置于自动进样器中进样，试样在1 150 ℃下通高纯氧气燃烧，850 ℃下催化还原，释放出N2和H2O，进入相应检测池分析检测，经过“吹扫-捕集”吸附解析的分离过程，得到氮、氢的分析数据，完成检测.2　结果与讨论2.1　进样方式的确定本试验采用直投法进样，对于粉末类样品以此方式进样时，会造成进样系统污染、进样量减少、分析数据偏低等问题，为避免因进样造成的分析误差，需采用镍嚢作为样品包裹体，保证进样量的准确性及释放完全性.2.2　进样量的确定样品的进样量会影响熔融效果，使用标准物质ZBM095A作为待测样品，对比0.010 0、0.020 0、0.030 0、0.040 0、0.050 0、0.060 0、0.080 0、0.100 0 g 进样量对氮、氢元素释放效果的影响. 由图2可见，随着进样量的增加，氮质量比在进样量为0.010 0~ 0.030 0 g时的测定结果变化不大，而在0.0300 g时出现拐点呈下降趋势，随着进样量的继续增加，由于释放条件不足，氮质量比下降，因此氮的最佳进样量为0.0300 g. 氢质量比随进样量增加，先呈明显上升趋势，在进样量为0.030 0 g时，氢质量比达到了最高点，而随着进样量的继续增大，氢质量比缓慢降低，在进样量大于0.060 0 g时，氢质量比迅速下降. 由此可见，0.0300 g是其最佳进样量. 产生该现象的原因可能是进样量较低时，样品分析浓度不够，导致氢元素质量比偏低，而进样量过高时，样品的分析条件不足以使氢完全释放，氢元素质量比降低，且就仪器本身的检测范围而言，氢的测量上限绝对质量为0.002 5 g，因此对于标准物质ZBM095A 的氢元素质量比的测定，当进样量超过0.050 0 g时，检测池处于饱和状态，无法正常检测. 因此，0.030 0 g 为该方法的最佳进样质量.4.54.03.53.02.52.01.51.00.500.020 00.040 00.060 0NH0.080 00.100 0m/g质量比/%图2　不同进样量下氮、氢的测试结果Fig. 2　Test results of nitrogen and hydrogen underdifferent sample masses2.3　分析功率的确定在氮、氢元素分析中，分析功率是决定样品释放的重要参数. 本试验依次设置4 500、5 000、5 500、6 000 W的功率梯度，观察功率对于无烟煤中氮、氢元素检测的影响. 图3为氮、氢的测试值随功率变化的关系图. 由图3可见，当功率较低，在4 500、5 000 W时，氮、氢元素质量比偏低，说明过低的功第 1 期王琳，等：惰气熔融-红外吸收/热导法同时测定无烟煤中氮和氢41率不足以使无烟煤完全熔融释放，这与无烟煤本身含碳量高、燃点高的特性一致. 但当功率为6 000 W 时，质量比再次下降，这是因为功率过高，导致氮、氢元素过早溢出，数据捕捉不及时，导致数据偏低.当分析功率为5 500 W 时，氮、氢元素的释放最完全，测定值最高. 由此可见，无烟煤的最佳分析功率为5 500 W.2.4　分析坩埚的对比氮、氢元素分析的样品载体一般分为石墨套埚（外坩埚加内坩埚）和标准坩埚. 本试验对比二者的分析效果，观察图4（a ）的氮元素及图4（b ）的氢元素在使用不同坩埚时的测定谱图，可发现氮、氢元素在使用石墨套埚得到的测定值明显高于标准坩埚，说明石墨套埚的分析效果优于标准坩埚. 究其原因，标准坩埚对比石墨套埚来说相对单薄，在5 500 W 的高功率下其承压能力小，甚至存在标准坩埚被烧漏或者断裂的情况，因而标准坩埚的使用会导致数据偏低，对于无烟煤这类燃点高、熔融产生热量大的样品来说，双层结构的套埚更适用. 因此，本试验选用石墨套埚作为分析坩埚.2.5　分析参数的设定（包括分析延迟时间、数据集成时间）本方法对仪器分析参数（分析延迟时间、数据集成时间）进行了探究. 对比了15、10、5、0 s 四种延迟时间，观察图5（a ）可见，15 、10 s 时氢的出峰过早、不完整且峰形不佳，导致氢元素的数据捕集不完全，测试数据偏低. 当调整为5 s 时，氢峰的前端有平缓的基线，0 s 时出峰过缓. 因此，5 s 是合理的延迟时间. 由图5（b ）可见，氮的测试值随延迟时间的增加而增大，其延迟时间设置为15 s 较合理.对于出峰不完全的问题，本试验采用将数据集成时间延长的方式，分别设置为55、65、75、80、85 s ，观察图6（a ）发现，当集成时间为55、65、75 s 时，氢峰的末端均未回到基线的位置，数据偏低. 80 s 时谱线回到基线，85 s 时形成相对完整的正态分布峰，与图6（b ）的数据趋势吻合. 同时观察图6（b ）发现，氮的集成时间为55s 数据更合理. 因此本方法选择氮的延迟时间为15 s 、集成时间为55 s ，氢的延迟时间为5 s 、集成时间为85 s 为最佳分析参数.2.6　标准曲线建立及检出限测定无烟煤中的氮、氢元素含量范围较宽泛，单点校准的方式并不适用. 本文采用建立标准曲线的校准方式，在称样质量为0.030 0 g 、分析功率为5 500W ，氮、氢元素延迟时间分别为15、5 s ，捕集时间分别为55、85 s ，使用石墨套埚的试验条件下，选择有证标准物质ZBM093、GBW11104j 、GBW11108o 、2.754.34.24.14.03.92.702.652.602.554 5005 000N H5 5006 000P /W质量比/%质量比/%图3　分析功率的探究试验Fig. 3　Test results of nitrogen and hydrogen underdifferent analytical powers100(a)608040积分强度石墨套锅标准坩埚2000102030t /s405060100(b)608040积分强度石墨坩埚标准坩埚2000102030t /s405060图4　石墨套埚与标准坩埚的确定试验(a)不同坩埚对氮元素的测试谱图，(b)不同坩埚对氢元素的测试谱图Fig. 4　Comparison of test results between graphite sleeve pote and standard crucible (a) spectra of nitrogen in different crucibles, (b) spectra of hydrogen in different crucibles42分析测试技术与仪器第 30 卷ZBW112A 建立标准曲线，其认定值及测量值结果如表1所列. 氮、氢元素的线性方程分别为：Y =2.098 404 22X −0.000 200 66、Y =0.789 376 46X −0.000 044 57，相关系数分别为0.994 9、0.994 0，满足线性关系. 对空白坩埚连续测试11次，得到氮、氢元素的平均值分别为0.318 9%、0.186 9%，以该结果与3倍标准偏差之和作为检出限，分别为0.321%、0.189%，以平均值与10倍标准偏差之和作为定量限，分别为0.326%、0.194%，结果如表2所列，表明该方法检测范围较宽，适用于无烟煤中氮、氢元素的定量检测.2.7　方法的准确度、精密度测试精密度测试是验证方法可靠性的重要指标，本试验使用有证无烟煤标准物质ZBM095A 进行精密度测试，平行测定7次，并计算其精密度. 如表3所列，其氮、氢元素的测定平均值分别为1.30%、3.30%，由表1可知，其认证值分别为1.31%±0.07%、3.23%±0.10%，因此该方法准确度较好. 经计算，氮、氢的精密度分别为3.60%、0.63%，满足方法精密度要求. 由此可见该方法准确可靠.表 1 标准物质及其认证值、测量值Table 1　Certified and measured values of standardsubstances/%标准物质NH 认证值测量值认证值测量值ZBM0930.56±0.060.563 3.01±0.12 2.92GBW11104j 0.94±0.070.929 2.64±0.15 2.71GBW11108o 1.30±0.06 1.30 4.58±0.13 4.59ZBW112A 1.10±0.06 1.12 3.78±0.10 3.79ZBM095A1.31±0.071.303.23±0.103.3010015 s 10 s 5 s 0 s(a)8060积分强度402005101520253035t /s 404550556065702.655.04.03.02.01.00N H(b)2.602.552.50质量比/%质量比/%2.452.402.3551015t /s图5　氮、氢的分析延迟时间对比试验(a) 不同延迟时间下氢的测试谱图， (b)延迟时间对氮、氢的影响Fig. 5　Comparison test of analysis delay times of nitrogen and hydrogen(a) spectra of hydrogen in different delay times, (b) effect of delay times on nitrogen and hydrogen100 2.705.04.94.84.74.62.682.662.642.622.6055606570758085909585 s 80 s 75 s 65 s 55 s806040积分强度质量比/%质量比/%20002040t /st /s6080100(a)(b)图6　氮、氢的集成时间对比试验(a)不同集成时间下氢的测试谱图， (b)集成时间对氮、氢的影响Fig. 6　Comparison test of integration times of nitrogen and hydrogen(a) spectra of hydrogen in different integration times, (b) effect of integration times on nitrogen and hydrogen第 1 期王琳，等：惰气熔融-红外吸收/热导法同时测定无烟煤中氮和氢432.8　未知样品测试对日常送检的无烟煤样品进行抽检，并标号为样品1、样品2，使用方法1与本方法进行对比，随试验进行ZBM095A的测试. 分别平行测定7次，其测试结果如表4所列. 由表可见，方法1测得样品1、样品2、ZBM095A中氮的平均值分别为0.096 6%、1.086%、1.30%，相对标准偏差（RSD）分别为2.67%、1.75%、3.60%. 氢的平均值分别为2.899%、3.312%、3.30%，RSD分别为1.90%、1.50%、0.63%. 本方法测得样品1、样品2、ZBM095A中氮的平均值分别为0.094 6%、1.067%、1.25%，RSD分别为2.99%、1.69%、3.90%. 氢的平均值分别为2.927%、3.300%、3.20%，RSD分别为1.87%、1.56%、0.72%. 对比两种方法，准确度与精密度均能够满足试验要求，再次证实本文建立的方法适用于无烟煤中的氮、氢两种元素的定量测定.表 3 ZBM095A的精密度试验Table 3　Precision test of ZBM095A/%元素测定值平均值RSDN 1.28、1.26、1.34、1.35、1.36、1.30、1.24 1.30 3.60H 3.30、3.32、3.33、3.29、3.29、3.33、3.28 3.300.63表 4 两种方法测试未知样品的对比试验Table 4　Comparison of two methods for testing unknown samples/%样品方法1平均值方法1 RSD本方法平均值本方法RSD N H N H N H N H样品10.096 6 2.899 2.67 1.900.094 6 2.927 2.99 1.87样品 2 1.086 3.312 1.75 1.50 1.067 3.300 1.69 1.56 ZBM095A 1.30 3.30 3.600.63 1.25 3.20 3.900.723　结论（1）本文首次将惰性气体熔融-红外吸收/热导法应用于无烟煤类产品的检测中，该方法满足同时、快速、准确的特点，减少了强酸化学试剂的使用，体现了绿色化学宗旨.（2）建立了无烟煤中氮、氢元素定量测试的方法，为煤炭行业的检验检测、标准制定、贸易等提供参考.（3）拓展了氧氮氢分析仪的使用范围，在有色金属、高温合金、难熔金属、稀土、陶瓷、矿石等材料的使用范围之外，增加了无烟煤类产品的使用.参考文献：习近平. 在第七十五届联合国大会一般性辩论上的讲话[N]. 人民日报, 2020-09-23(3).［ 1 ］元雪芳, 任恒星, 郭鑫, 等. 不同物质对无烟煤生物转化的影响研究[J].煤化工，2022，50（5）：79-82.[YUAN Xuefang, REN Hengxing, GUO Xin, et al.Study on impact of adding different 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（农业粮食）高中英语阅读短文及答案阅读短文并回答问题More than any other aspect of the climate crisis,it is the over-production of carbon dioxide that has been valued.But nitrogen （氮）,and its abundant use in commercial fertilizer（化肥）,also leads to air pollution and climate change.Evidence suggests their use also contributes to air pollution,increases the rates of cancer and reduces biodiversity,as well as releasing gas(laughing gas).But nitrogen helps feed around half the world’s population and remains essential for the foreseeable future.With prices of fertilizer rising,many developing countries don’t have access to it,with resulting threats to food security.The global nitrogen challenge involves both reducing fertilizer use,and getting it to where it’s needed most.A team of scientists has come up with a five-step plan to solve this two-sided problem.Benjamin Houlton,the leader,explains that only by undertaking a holistic approach and combining solutions can the problem be solved on both levels.The five steps identified involve changing agricultural practices, getting fertilizer to the places it’s needed,reducing nitrogen pollution and finally,both reducing food waste and promoting a change in diet. The latter two are essential because approximately one-quarter of all global food produced is wasted along the supply chain,which means that a large portion of the nitrogen fertilizer applied to crops is ultimately wasted.Benjamin admits that adding nitrogen to the list of existing climate woes might cause a sense of exhaustion.Nevertheless,he has an encouraging message.“The truth is,nitrogen is a blessing and a curse,”he says,“But if you can reduce the spill-overs of nitrogen,you can quickly get systems to return to a more original state.That makes it very different from CO2.We lock in30to50years of climate impacts everytime we send out a molecule（微粒）of CO2into the air.But with nitrogen you can get immediate returns on investment.”1.Why does the author mention carbon dioxide in paragraph1?A.To introduce the harm of nitrogen pollution.B.To explain the effects of producing CO2.C.To present the results of using fertilizer.D.To show the seriousness of air pollution.2.What’s paragraph2mainly about?A.The prices of nitrogen fertilizer.B.The challenges of nitrogen fertilizer.C.The importance of nitrogen fertilizer.D.The two-sided problem of nitrogen fertilizer.3.According to paragraph4,why are the last two steps important?A.They can ensure the security of food supplies.B.They can solve the problem of climate change.C.They can reduce the waste of nitrogen resources.D.They can meet the need of agricultural fertilizer.4.What does Benjamin convey in his words?A.Producing CO2could get more returns.B.The release of CO2may be more harmful.C.The impacts of nitrogen are more permanent.D.Reducing nitrogen could get more efficient results.参考答案ADCD单词学习1.carbon dioxide二氧化碳the over-production of carbon dioxide二氧化碳的生产过剩2.holistic adj.整体的a holistic approach全盘着眼，整体分析3.agricultural practices耕作方法4.woe n.灾难climate woes气候危机5.curse n.祸根Nitrogen is a blessing and a curse.氮是福也是祸。

超低温反应动力学研究英文回答：Studying the kinetics of reactions at ultra-low temperatures is a fascinating field of research. The unique conditions at such low temperatures can lead to interesting and unexpected reaction pathways. One example of a reaction that has been extensively studied at ultra-low temperatures is the reaction between atomic hydrogen and molecular oxygen to form water.At ultra-low temperatures, the reaction between atomic hydrogen and molecular oxygen is extremely slow due to the low kinetic energy of the reactants. However, by using techniques such as cryogenic cooling and laser-induced chemistry, researchers have been able to study the reaction kinetics in detail. These techniques allow the reactants to be trapped and manipulated at temperatures as low as a few Kelvin.One of the main challenges in studying reactions at ultra-low temperatures is the lack of thermal energy available for the reaction to proceed. In order to overcome this, researchers often use external stimuli such as lasers to provide the necessary energy for the reaction to occur. By carefully controlling the laser parameters, researchers can selectively excite specific vibrational or rotational states of the reactants, promoting the reaction to occur even at ultra-low temperatures.Another interesting aspect of studying reactions at ultra-low temperatures is the role of quantum effects. At such low temperatures, the reactants behave more like particles with wave-like properties, and quantum tunneling becomes a significant factor in determining the reaction rate. Quantum tunneling allows particles to pass through energy barriers that would be impossible to overcome classically. This phenomenon can lead to unexpected reaction pathways and can greatly influence the reaction kinetics at ultra-low temperatures.中文回答：研究超低温下的反应动力学是一个令人着迷的研究领域。