This site uses cookies.
Some of these cookies are essential to the operation of the site,
while others help to improve your experience by providing insights into how the site is being used.
For more information, please see the ProZ.com privacy policy.
This person has a SecurePRO™ card. Because this person is not a ProZ.com Plus subscriber, to view his or her SecurePRO™ card you must be a ProZ.com Business member or Plus subscriber.
附属机构
This person is not affiliated with any business or Blue Board record at ProZ.com.
翻译文本 - English英语 THIS SEWAGE TREATMENT AGREEMENT (hereinafter referred to as “this agreement") is a business contract of a sewage treatment service made and entered into by and between the respective parties hereinafter on 1st September, 2005.
(1)Party A (hereinafter referred to as “buyer"): AAAA Water Authority, under the official authorization of AAAA municipality, is a government body officially established and supported by Chinese law . It is responsible for water and sewage treatment of AAAA. Its legal address is No.10, West Lane 1, Nanhu Rd., AAAA, XJWWDZZQ, China.
Representative: Mr. Wang Kuiwu, legal person
Nationality: Chinese
(2)Party B (hereinafter referred to as “project company”): AAAAHDCW Water Affairs Co., Ltd. is a company under construction and is registered in AAAA Administrative Bureau for Industry and Commerce. Its main operation venue is No. 20, East Gebi Rd., AAAA, XJWWEZZQ, China.
As project company’s official representative, BBBCC Water Affairs Operation (HK) Co. Ltd. is a company established and supported by law of Hong Kong Special Administrative Region. It is registered in Hong Kong Companies Registry with registered number: 35190202—000—12—04—3. Its legal address is 22/F,No. 8, Central Queen’s Rd., Hong Kong.
Representative: Mr. Jean-Francois ROHARD, officially authorized signatory of this agreement
Nationality: French
(Buyer and project company, hereinafter, are individually referred to as “one party” and collectively referred to as “respective parties”.)
English英语译成Chinese汉语: Ecological design
原文文本 - English英语 In a world facing a future characterized both by expanding metropolitan regions and by ecological crisis, it is imperative that we re-think the relationship of urban dwellers to the natural environment. The 21st century is expected to be the first in history in which a majority of humanity lives in cities, and if present trends continue, it may also be the one in which those urban populations inflict irreversible damage on the earth's living systems.
Although there has been a great deal of debate about sustainable cities in recent years, much of it has offered accountings of the ecological costs of sprawling growth or physical analyses of the need for compact, high-density , mixed-use cities that minimize auto mobile transportation. Comparatively little of the discussion has focused on urban residents themselves, and how they might live more sustainably within the city, or, equally importantly, how they might develop a greater understanding of the ecological crisis and the natural cycles that sustain all life, including their own. As ecological educator David Orr has put it, “The vast majority of thought about a sustainable society has to do with hardware. I think it is time to ask about the software of sustainability as well, and thus about the qualities that people will need to build and maintain a durable civilization.”
The combination of a need to develop practical strategies for sustainable urban living and to develop a greater ecological consciousness suggests that the landscapes of our cities, and the ways that people relate to them and learn from them, will be critical to the prospects for sustainability. This is true not only because most people in the modern world spend most of their time in the city, but also because these same urban landscapes have extraordinary potential to reveal the tangible relationships between urban residents and the natural environment.
Ecologically designed urban landscapes are ones that can use both ecological processes and human values as form-giving elements. In addition to their many environmental benefits, these landscapes--which include systems such as energy-efficient buildings, stormwater infiltration, sewage treatment wetlands, and urban forests--can also contribute to local cultures of sustainability that, like all cultures, both shape and are shaped by the built and designed environment. If they are to do so, however, their designers must think clearly about the experience of the users of the urban landscape, and particularly about the meanings and lessons that they derive from their surroundings. The ways that people learn from and respond to the urban environment are critical to the prospects for sustainability, if for no other reason than that for most of us, it is the landscape of the city that helps to shape our view of nature and our relation to it.
Taking this experience-based approach to the problem of designing urban landscapes yields three major insights for fostering sustainability: ecologically designed urban landscapes should communicate cultural 'cues' for sustainable behavior; these landscapes should be implemented in partnership with ecological education efforts; and the cultural Taking this experience-based approach to the problem of designing urban landscapes yields three major insights for fostering sustainability: ecologically designed urban landscapes should communicate cultural 'cues' for sustainable behavior; these landscapes should be implemented in partnership with ecological education efforts; and the cultural meanings and ecological place values created over time will be fundamentally local. Each of these is explained below.
原文文本 - English英语 In a world facing a future characterized both by expanding metropolitan regions and by ecological crisis, it is imperative that we re-think the relationship of urban dwellers to the natural environment. The 21st century is expected to be the first in history in which a majority of humanity lives in cities, and if present trends continue, it may also be the one in which those urban populations inflict irreversible damage on the earth's living systems.
Although there has been a great deal of debate about sustainable cities in recent years, much of it has offered accountings of the ecological costs of sprawling growth or physical analyses of the need for compact, high-density , mixed-use cities that minimize auto mobile transportation. Comparatively little of the discussion has focused on urban residents themselves, and how they might live more sustainably within the city, or, equally importantly, how they might develop a greater understanding of the ecological crisis and the natural cycles that sustain all life, including their own. As ecological educator David Orr has put it, “The vast majority of thought about a sustainable society has to do with hardware. I think it is time to ask about the software of sustainability as well, and thus about the qualities that people will need to build and maintain a durable civilization.”
The combination of a need to develop practical strategies for sustainable urban living and to develop a greater ecological consciousness suggests that the landscapes of our cities, and the ways that people relate to them and learn from them, will be critical to the prospects for sustainability. This is true not only because most people in the modern world spend most of their time in the city, but also because these same urban landscapes have extraordinary potential to reveal the tangible relationships between urban residents and the natural environment.
Ecologically designed urban landscapes are ones that can use both ecological processes and human values as form-giving elements. In addition to their many environmental benefits, these landscapes--which include systems such as energy-efficient buildings, stormwater infiltration, sewage treatment wetlands, and urban forests--can also contribute to local cultures of sustainability that, like all cultures, both shape and are shaped by the built and designed environment. If they are to do so, however, their designers must think clearly about the experience of the users of the urban landscape, and particularly about the meanings and lessons that they derive from their surroundings. The ways that people learn from and respond to the urban environment are critical to the prospects for sustainability, if for no other reason than that for most of us, it is the landscape of the city that helps to shape our view of nature and our relation to it.
Taking this experience-based approach to the problem of designing urban landscapes yields three major insights for fostering sustainability: ecologically designed urban landscapes should communicate cultural 'cues' for sustainable behavior; these landscapes should be implemented in partnership with ecological education efforts; and the cultural Taking this experience-based approach to the problem of designing urban landscapes yields three major insights for fostering sustainability: ecologically designed urban landscapes should communicate cultural 'cues' for sustainable behavior; these landscapes should be implemented in partnership with ecological education efforts; and the cultural meanings and ecological place values created over time will be fundamentally local. Each of these is explained below.
原文文本 - English英语 TECHNICAL DESCRIPTION
The building stands on foundation based on ground study and ground tests with proper calculations.
The structure is composed of concrete columns every 10 meters, with intermediary metallic columns between.
1. FOUNDATIONS:基础
- Foundations according to results of soil analysts.
Concrete : 300 kg/ cu. m. CLK
- Line-trenches for longitudinal foundations on piles.
- Longitudinal foundation in concrete, reinforced and shuttered.
2. STRUCTURES
- Floor in reinforced concrete, incorporating a 150 u polythene sheet.
- High density polystyrene for horizontal heat and cold insulation on undersufrace of ground-floor.
- Framework, beams and posts in reinforced concrete for the floors and metal for the rest.
- Cross-walls in reinforced concrete blocks, with smouth mortar coating, or interior sandwich panels (location on drawings)
- Floor in reinforced concrete or prefabricated concrete joists or mixed floor-slabs (metal + concrete).
The roof is supported by metallic beams and includes reinforced steel sheeting and rockwool insulation with double-layer waterproofing material. Horizontal structure, main beams and side-beams: IPN metal frame.
I am a native Chinese with bilingual compentency and cultural awareness. I feel excited when new challenges arise. I do work hard and have very good time management. Professionalism and perfection are what I am striving for.
关键词: interpreter, business trips, site inspection, business contract, construction, localization, time management