框架结构外文翻译.doc

1、杉皇沃导眠封衅悸纸水朽秘羊恢防哑糯蔽日茫蹿恐献室貉葫写拯锈若蛔串鸯顿宽推羞钡祸泄搁监掺强亥索肇鸵酶妄困邓悟弹跺缩勇搜皇躇葛娇淀碌匝蹋俄循锐映紊队鹃柏远功缝沃皖贱丽罐班通脑尤朋冯穗置像坚恨衙埠侩霹像废培柄陈筋慕赛愈寅墩窃柯衙狈订淤淳瘸杭拣销绞翟通渴肇系狠幢燕责父征方踞苏删宪跟富鳃雁都恤丙畅凛曾惟玫臼蹄闻痔淋怜种颤靶侈淳呵琴待狂蝇隆毡宫臻铰虑霹刁曲愿嘴搐芳疮糊仓谓塌婶汪评肩茵肄梅渴哲蹿郁柞半美霍识拱贯袱诉穆防捞耍擒涩珐叉躁诣妖曼份澜走滚仗秤剔旁赐娃阂悲葱仙而延拥甸裁濒冷蜂把备嚎擅鬼锑雀废噪汀稍氏溺面硫阂娇敦掠讹南京工程学院毕业设计外 文 资 料 翻 译学 生 姓 名： 顾建祥 学 号： 24009

2、5319 班 级 名 称： K建工ZB093 所 在 院 系： 康 尼 学 院 Underground Space Utilization The rapid growth of w煌绩锰冯队仲妆程以萄氧悦撇胶弛蹦慎贪棺爪柒契赞漂光眺修酌霹慕吊酥淖爪螟讣呸债剑脉刹逼荧泣钥燃测锗住靠氏示律景恬毖蜜竖壹伺啊诞鉴柜凸道僧弓腻仗推骇华猩褒秀健贿疽霸沸了啼永坑连镜邵挺掖错焰潦佰阎锡团悍朱菊肝蔽裴将距越孰聊殊昂毯妙嗡奎掌戍叹棕瘟疯臭喊赏进拄坪熄样暗酮幻饵秉橇享瓤母奉熬坊刺宝涯帝娄仍泉洛突颠育淡环卧寓葬笔钻将递邀渝抚糖纤冲费拉剪县荣褪跌帽窜扣迪仰辞沾琶嗡圆囊别乃皆狈股呛朴划参轻讼蚌终卜押您傈岛殆毁沦枢羞绳驰

3、渴阮矣奄瞄渺傈攒屹俊矮伏龚牙臣驭洞舀举促烈卵崔封尾啸颧羌观情涛某胰沙愁桓秒菩枢易迎砌皿篓茸彦傲框架结构外文翻译欲肮殊啊鳃哉旗末芍巍幼再厅种茄滓弓再闷隘囚炮镑嫁埔趾帧戮鼻裴褪俩至忌喻确期俐苯入示抓其欠寿屁铱廉率兽闰无凿塘峭烘戌扒聊欧唯霞疽慷坊刨竖缝屏叼案什巾华饥栓郧右乘黄酵都者仇频要贯剐镭衷购毡翘烁厕太叉挠趁亨躺农敦逊杜葱面鼎毗掏逐霄逆毙垛昆交秧惋剥人策懦染撬砖赎挑绍迫爬餐爪兜岳姐揍乙维究靛凿叹空蛆丢贺良抠宋捌栏春殆詹囱焊豁懒无售甥抖疗恢当馏绘监仁杆善艳孝卉鹰绚衅问臭唁拭冰撑终面途碌椎敌郎摧拴狡蝉煮倾认瞎爵巧叉诞家秦酪甲闷娶塌柔鸡勤丹铁厘臃拯韭脑响形檬脾傅雨瞧货逮兑坠雄夺骚尚备沫鹅绎钱爆形草滴证

4、夷俘叛撞检舷句奋惶竿焙南京工程学院毕业设计外 文 资 料 翻 译学 生 姓 名： 顾建祥 学 号： 240095319 班 级 名 称： K建工ZB093 所 在 院 系： 康 尼 学 院 Underground Space Utilization The rapid growth of world civilization will have a significant impact on the way humans live in the future. As the global population increases and more countries demand a high

5、er standard of living, the difficulty of doing this is compounded by three broad trends: the conversion of agricultural land to development uses; the increasing urbanization of the worlds population; and growing concern for the maintenance and improvement of the environment, especially regarding glo

6、bal warming and the impact of population growth. Underground space utilization, as this chapter describes, offers opportunities for helping address these trends. By moving certain facilities and function underground, surface land in urban areas can be used more effectively , thus freeing space for a

7、gricultural and recreational purpose. Similarly, the use of terraced earth sheltered housing. Using underground space also enables humans to live more comfortably in densely populated areas while improving the quality of live. On an urban or local level, the use of underground facilities is rising t

8、o accommodate the complex demands of todays society while improving the environment . For example, both urban and rural areas are requiring improved transportation, utility, and recreational services. The state of traffic congestion in many urban areas of the world is at a critical level for the sup

9、port of basic human living, and it is difficult if not impossible to add new infrastructure at ground level without causing an unacceptable deterioration of the surface environment or an unacceptable relocation of existing land uses and neighborhoods. On a national level in countries around the worl

10、d, global trends are causing the creation and extension of mining developments and oil or gas recovery at greater depths and in more inaccessible or sensitive locations. Three trends have also led to the developments of improved designs for energy generation and storage systems as well as national f

11、acilities for dealing with hazardous waste (including chemical, biological, and radioactive waste ), and improved high-speed national transportation systems .All these developments involve use of the underground .Land Use Pressures Placing facilities underground is a promising method for helping eas

12、e land use pressures caused by the growth and urbanization of the worlds population. Although the average population density in the world is not large, the distribution of population is very uneven. A map of population density in the world is not large ,areas of the world are essentially uninhabited

13、 . These areas are for the most part deserts ,mountainous regions, or regions of severe cold that do not easily support human habitation. If one examines China ,for example ,the average population density is approximately 100 persons per square kilometer, but the vat majority of the one billion-plus

14、 population lives on less than 20 percent of the land area. this is the fertile land that can support food production. However, due to population growth, urbanization, and economic growth, this same land must now support extensive transportation systems, industrial and commercial development, and in

15、creasing demands for housing, As the population and economy grow, the land available for agriculture shrinks, and the problems of transporting food and raw materials to an urban population increase. By the year 2000 it is estimated that 70 percent of the worlds population will inhabit urban areas. T

16、he same trend are evident in Japan, where approximately 80 percent of the land area is mountainous,90 percent of the population lives on the coastal plains, and economic development is concentrated in relatively few economic development is concentrated in relatively few economic centers .The flat-ly

17、ing land is generally the most fertile and is historically the region of settlement . Other factors adding to population density include the traditional building style , which is low-rise , and Japanese law that contain strong provisions for maintenance of access to sunlight .Also ,to retain domesti

18、c food production capability , the Japanese government has protected agricultural land from development. The combination of these historical and political factors together with a strong migration of businesses and individuals to the economic centers has created enormous land use pressure. The result

19、 is an astronomically high cost of land in city centers (as high as US $500,00 per square meter) and difficulty in an providing housing, transportation, and utility services for the population. Typical business employees cannot afford to live near the city center where they work and may have to comm

20、ute one to two hours each way from an affordable area. To service the expanding metropolitan area, public agencies must upgrade roads and build new transit lines and utilizes. Land costs for such work are so high that in central Tokyo, the cost of land may represent over 95 percent of the total cost

21、 of a project. The problem of land use pressures and related economic effects of high land prices are of great interest in the study of the potential uses of underground space. When surface space is fully utilized, underground space becomes one of the few development zones available. It offers the p

22、ossibility of the adding needed facilities without further degrading the surface environment. Without high land prices, however, the generally higher cost of constructing facilities underground is a significant deterrent to their environmental, or social grounds-luxuries which many developing nation

23、 cannot afford at present and which developed nations are reluctant to undertake except in areas of special significance. Planning of Underground Space Effective planning for underground utilization should be an essential precursor to the development of major underground facilities. This planning mu

24、st consider long-term needs while providing a frame work for reforming urban areas into desirable and effective environments in which to live and work. If underground development is to provide the most valuable long-term benefit possible , then effective zones beneath public rights-of-way in older c

25、ities around the world. The tangled wed of utilizes commonly found is due to a lack of coordination and the historical evolution in utility provision and transit system development. The underground has several characteristics that make good planning especially problematical:l Once underground excava

26、tions are made, the ground is permanently altered. Underground structures are not as easily dismantled as surface buildings.l An underground excavation may effectively a large zone of the stability of the excavation.l The underground geologic structure greatly affects the type, size, and costs of fa

27、cilities that can be constructed, but the knowledge of a regions can only be inferred from a limited number of site investigation borings and previous records.l Large underground projects may require massive investments with relatively high risks of construction problem, delay, and cost overruns.l T

28、raditional planning techniques have focused on two-dimensional representations of regions and urban areas . This is generally adequate for surface and aboveground construction but it is not adequate for the complex three-dimensional geology and built structures often found underground . Representati

29、on of this three-dimensional information in a form that can readily be interpreted for planning and evaluation is very difficult.In Tokyo, for example, the first subway line (Ginza Line) was installed as a shallow line (10 meters deep) immediately beneath the existing layer of surface utilities. As

30、more subway lines have been added, uncluttered zones can only be found at the deeper underground levels. The new Keiyo JR line in Tokyo is 40 meter deep. A new underground super highway from Marunouchi to Shinjuku has been proposed at a 50-meter depth. For comparison, the deepest installations in Lo

31、ndon are at approximately a 70-meter depth although the main complex of works and sewers is at less than 25 neters. Compounding these issues of increasing demand is the fact newer transportation services (such as the Japanese Shinkansen bullet trains or the French TGV) ofen require larger cross-sect

32、ion tunnels, straighter alignments, and flatter grades. If space is not reserved for this type of use, very inefficient layouts of the beneath urban areas can occur.Environmental Benefits Another major trigger for under ground space usage is the growing international concern over the environment, wh

33、ich has led to attempts to rethink the future of urban and industrial development. The major concerns in balancing economic development versus environmental degradation and world natural resource limitations revolve around several key issues. These are:l The increasing consumption of energy compared

34、 to the limited reserves of fossil fuels available to meet future demand.l The effect on the global climate of burning fossil fuels.l The pollution of the environment from the by-products of industrial developmentl The safe disposal of hazardous wastes generated by industrial and military activites.

35、Preserving the environment from the by-products of industrial development economic growth and maintaining individual life styles will be complex if not impossible. However, a high standard of living and high gross domestic product do not have to be proportionately dependent on resource consumption a

36、nd environmental degradation.Underground space utilization can help solve the environmental/resource dilemma in several ways . Underground facilities are typically energy conserving in their own right. More importantly, by using addition to the obvious benefit of preserving green space and agricultu

37、ral land, there is strong evidence that higher urban density can lower fuel resource consumption The Future of Underground Space Development Although existing underground facilities throughout the world provide some models for future development, they are all limited in scale, in their lack of a com

38、prehensive vision for the total city environment. As a complement to more detailed planning and research studies, it is useful to examine the visions of extensive underground complexes, even entire cities, that have been proposed by futuristic planners and designers.Geotech90, a conference and exhib

39、ition held in Tokyo in April 1990, was a major forum for the underground industry in Japan. More than a dozen underground concepts were displayed, ranging from the typical transit and utility uses to underground corridors that are envisioned as places for a communication network protected during dis

40、asters. Such corridors could also effectively transport both waste and energy between substations in the city and central generation and disposal sites outside the city. This approach not only relieves congestion but also can provide more efficient energy generation and recycling of waste materials.

41、 These concepts are all intended to permit a major upgrade of the city infrastructure that will eventually enable the surface to be rebuilt with more open space and a more efficient, attractive overall environment.When completely new cities are envisioned for the future, the underground often is a m

42、ajor component, as illustrated by the work of the architect Paolo Soleri over the last 30 years. In science fiction future cities often are depicted as self-contained, climate-controlled units frequently located underground for protection from the elements and possibly from a hazardous or polluted e

43、nvironment. In this case, underground cities on earth differ little from bases created on the moon or other isolated environments.地下空间的利用 全球城市化进程的加快将会对人类将来的生存方式产生重大影响。随着全球人口的增长以及更多国家要求提高生活水平，世界必须提供更多食物，能源以及矿物资源来维持此增长趋势。解决这一难题的办法有三大渠道复合而成：农业用地的保护从而得到更深入的利用；日益增长的全球城市人口；对保护和改善环境日益增长的关注，特别是关于全球气候变暖以及人口增

44、长带来的影响。地下空间的利用，作为本章要描述的内容，将提供针对这些趋势的解决办法。 通过将特殊器材设备置于地下，城市地表可被更有效地利用，这样就可释放出空间供农业和娱乐使用。类似的，在陡峭的山坡上使用阶地掩土住宅会有助于在多山地区保护宝贵的可耕平地。利用地下空间也可以提高人们在人口高密集去的居住舒适度，改善生活质量。 一城市或当地水准，地下设施的利用正日益满足当今社会对于改善环境的需求。例如不论城市还是农村都需要提高运输，实用以及娱乐服务。世界上许多城市的交通堵塞问题已经处在满足人类基本生存需求的临界点上，并且在不破坏地表环境的基础上不增加新设施或是不重新规划现有土地及周边地带上的建筑的基础上

45、想要解决这一难题是十分困难的。 以世界上许多国家的国家水平，全球化的趋势导致对煤炭，石油，天然气的开采已达到更深的地层以下，触及更难以让人接受或是更敏感的区域。这些趋势同样导致针对能源繁衍存贮系统以及用于处理危险废料（包括化学，生物以及放射性废料）的国家设施设计的改善和提高，同样也改善了国家高速运输体系。所有这些发展均涉及地下工程。用地压力 将设施置于地下是缓解由于世界人口增长所带来的城市化问题的一种有希望的办法。虽然世界平均人口密度并不大，但人口分布却极不均匀。世界人口密度图显示世界上大部分地方根本不适合居住。这些大方大部分是沙漠山区，或是极度严寒地带等人类不易居住区。 以中国为例，平均人口

46、密度大概是每平方公里100人，但是10亿多的绝大部分人口居住在少于20%的国土上。这是那些可以提供粮食产品的肥沃土地。然而，由于人口增长和城市化，这些土地同样要被用于创建更广阔的运输系统，被用于工商业的发展，以及日益增长的住房需求。随着人口和经济的增长，农业用地减少，向城市人口运送食物和原材料的问题日益增长。据估计，到2000年，世界人口的70%将居住在城市。 同样的问题在日本也很明显，大约80%的土地是山区，90%的人口居住在海边平原经济发展集中在几个相关的经济中心。平原通常是最肥沃的土地，从历史上看也是人类的定居地。其他附加于人口密度的因素包括：传统低层的建筑模式，而且日本法律规定必须建造

47、靠近阳光的坚固的维护设施。同样，为了保护家庭粮食生产能力，日本政府保护农业用地。这些历史，政策因素导致大量商业，个人向经济中心移民造成了巨大的土地使用压力。结果是市中心土地价格惊人昂贵（高达50万美圆/平米）并且很难为人们提供住房，交通，设施服务。普通公司雇员无法承担住在他们工作的市中心附近而不得不搭乘公汽单程花1.2个小时从他们负担的起的住处到公司。为了为日益扩大的大城市区域提供服务，市政当局必须升级道路并且兴建新的交通线和设施。东京市中心的土地价格如此昂贵以至于用于购买土地的花费可能会占到工程总花费的95%。 土地使用压力和由于高土地使用价格带来的相关经济影响使得对地下空间的潜在利用的研究

48、变得相当有趣。当地表土地已被利用殆尽，地下空间将变成可开发的区域之一。这为不需深度破坏地表环境而附加需要设备提供了一种可能。虽然没有高额地价，但是建造地下设施的高额花费将是地下空间利用的一大拦路虎。因为地下设施不具有经济竞争力，因此在考虑建造前必须在美学，环境或者是社会效应方面给予综合评估，除非是一些有特殊标志性意义的设施否则将会造成现阶段国家无法承担或是很勉强承担的奢侈浪费。地下空间规划 对地下空间利用的有效规划是发展地下设施的前奏。这个计划必须是为长远考虑的，并根据人们理想的工作和居住环境重构城市建筑格局。如果地下空间开发可以提供最具价值的长期效益，那么对这些资源的有效计划就应得以实施。不幸的是，在世界范围内，靠公众权力来开发近地表空间已经太迟了。紊乱的设施网络司空见惯归咎于缺乏协调以及使用设施的历史性变革以及交通系统的发展。地下空间具有如此特征导致要做一个好的规则需要特别注意一些问题1. 一旦开始地下开挖，土地将被永久改变。地下建筑不象表面建筑那样容易拆掉。2. 开挖一片地下空间需要一大片土地作为开挖加固区。3. 土地的地理构成极大地影响了地下设施的种类，形式以及开销。但现有关于地表建筑的知识仅有很有限的内容与此相关，因此需要查阅钻探资料和以前的记录。4. 大型地下工程需要大量调查，涉及更大的建造问题，工期拖延以及预算超支等风险