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核能供热
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  nuclear heating
     ANALYSIS OF ECONOMICS AND MARKET FOR URBAN NUCLEAR HEATING IN CHINA
     城市核能供热规模与市场分析
短句来源
     In the paper the importance,research and development situation ofthe nuclear heating are described. From viewpoint of increasing the application cofficient and extendingthe use of the heating reactor,the way of synthetical application of thenuclear heating was discussed.
     本文论述了核能供热的重要意义,目前国内外核供热研究发展的现状,并从提高核供热堆的利用系数和扩大供热反应堆的应用方面,对核供热反应堆的综合利用途径进行了论述。
短句来源
     Economic analysis and comparison between nuclear energy and conventional energy in district heating systems are made. The low temperature heat energy from nuclear fuel produces the great economy of the primary energy, because the energy overall utilization of nuclear heating and coal fired POwer is higher than that of mode of nuclear power and coal fired heating.
     本文在集中供热系统中比较了核能供热与常规能源的经济性,论述了核燃料用于产生低温热能的优点.并指出利用核供热与煤发电的能源利用模式比核发电与煤供热模式可节省一次能源,提高能源利用率.
短句来源
     The conjugated system of nuclear heating and desalination may function as an excellent method to meet the heat and water supply need for the northern cities along the coast.
     核能供热和海水淡化联合系统为解决北方沿海城市供暖与供水提供了很好的途径;
短句来源
  nuclear heat
     meters by 2000. The market demand of the nuclear heat sources will increase rapidly.
     因此,对核能供热的需求数量增长将会很快。
短句来源
  nuclear district heating
     Economic Analysis of Low-Temperature Nuclear District Heating
     低温核能供热经济分析
短句来源
     Deep-Pool Reactors for Low—temperature Nuclear District Heating
     低温核能供热用深水池供热堆
短句来源
  “核能供热”译为未确定词的双语例句
     PHYSICAL PRINCIPLE AND ENGINEERING FEATURES OF THE DEEP POOL REACTOR FOR RESIDENTIAL HEATING
     一种新型的核能供热装置——深水池供热堆的原理和工程特性
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  nuclear heating
Simulating experimental investigation on the safety of nuclear heating reactor in loss-of-coolant accidents
      
The 5MW low temperature nuclear heating reactor (NHR-5) is a new and advanced type of nuclear reactor developed by Institute of Nuclear Energy Technology (INET) of Tsinghua University of China in 1989.
      
The experiment was carried out on the test loop HRTL-5, which simulates the geometry and system design of a 5?MW nuclear heating reactor.
      
Procedures for assessing the profitability of using thermoelectric nuclear power plants and nuclear heating plants under conditi
      
A comparative analysis is made of mathematical models and computational results obtained for an unanticipated reactivity accident at a nuclear heating plant taking account of depressurization of the reactor vessel.
      
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  nuclear heat
It is found that over a wide range of temperatures and magnetic fields even a small concentration of magnetic impurities in a sample leads to a T-1 temperature dependence of the nuclear heat capacity.
      
The nuclear heat capacity data show enhanced values which scale with the impurity concentration.
      
The lower end of a silver rod coupled to this stage and extending into a 17T magnetic field cools to below 3mK, where the nuclear heat capacity of the silver is rising.
      
There is a wide range of applications for both couplings, the most severe limitations are imposed by nuclear heat capacities.
      
The nuclear heat shock geneHSP70B ofChlamydomonas reinhardtii is inducible by heat stress and light.
      
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  nuclear district heating
Development of elements simulating the fuel elements of RBMK reactors and nuclear district heating stations
      


la consideration of the heat market in northern cities, the economics of the pool梩ype low temperature heating reactor and the investment of urban heating system, the scale of protype reactor is chosen 200 MW, which will be able to meet the requirement of cities with more than 500 thousands population, and about 2/3 urban heat market can be met. In some areas, choosing 100 MW reactor probability is better.

考虑到国内北京城市集中供热的需求情况及池式低温供热堆的技术经济特性,预计选用200MW作为单堆容量较为合适。它可以满足50万人口以上大城市供热的需要,约占城市总人口数量的2/3以上的需要。在某些地区,选建100MW池式供热难在经济上也是有利的。 在我国三北(东北、西北、华北)地区,每年约有5千万m~2的建筑投入使用,这就需要每年增加约3GW的供热能力。预计1990年将有1.5亿m~2,2000年将有5亿m~2的建筑实现集中供热。因此,对核能供热的需求数量将会增长很快。

In consideration of the heat market in northern cities, the economics of the pool-type low temperature heating reactor and the investment of urban heating system, the scale of protype reactor is chosen 200 MW, which will be able to meet the requirement of cities with more than 500 thousands population, and about 2/3 urban heat market can be met. In some areas, choosing 100 MW reactor probability is better. It is expected that the newly built apartments in North-East, North-West and North China will be about...

In consideration of the heat market in northern cities, the economics of the pool-type low temperature heating reactor and the investment of urban heating system, the scale of protype reactor is chosen 200 MW, which will be able to meet the requirement of cities with more than 500 thousands population, and about 2/3 urban heat market can be met. In some areas, choosing 100 MW reactor probability is better. It is expected that the newly built apartments in North-East, North-West and North China will be about 50 million sq. meters each year and .they will require some 3 GW of additional heat sources per year, and the building area incorporated into urban heating system will be 150 million sq. meters by 1990, and 500 million sq. meters by 2000. The market demand of the nuclear heat sources will increase rapidly.

考虑到国内北京城市集中供热的需求情况及池式低温供热堆的技术经济特性,预计选用 200MW作为单难容量较为合适。它可以满足50万人口以上大城市供热的需要,约占城市总人口数量的2/3以上的需要。在某些地区,选建100MW池式供热堆在经济上也是有利的。 在我国三北(东北、西北、华北)地区,每年约有5千万m~2的建筑投入使用,这就需要每年增加约3GW的供热能力。预计1990年将有1.5亿m~2,2000年将有5亿m~2的建筑实现集中供热。因此,对核能供热的需求数量增长将会很快。

In the paper the importance,research and development situation ofthe nuclear heating are described.From viewpoint of increasing the application cofficient and extendingthe use of the heating reactor,the way of synthetical application of thenuclear heating was discussed.Because the DHR is a very safe,economic and clean energy resource,in China there are many cities and factories are working to make a planor to start to bttild a nuclear heating plant.The paper shows that theheating reactor has a very bright future....

In the paper the importance,research and development situation ofthe nuclear heating are described.From viewpoint of increasing the application cofficient and extendingthe use of the heating reactor,the way of synthetical application of thenuclear heating was discussed.Because the DHR is a very safe,economic and clean energy resource,in China there are many cities and factories are working to make a planor to start to bttild a nuclear heating plant.The paper shows that theheating reactor has a very bright future.

本文论述了核能供热的重要意义,目前国内外核供热研究发展的现状,并从提高核供热堆的利用系数和扩大供热反应堆的应用方面,对核供热反应堆的综合利用途径进行了论述。由于核供热反应堆具有良好的固有安全性、良好的经济性及对环境污染小等优点,成本低于燃煤供热的锅炉房热能成本,是一种安全。经济而又清洁的能源,可节约大量煤炭,缓解运输的紧张状况,并能净化环境,所以核供热在中国是很有发展前途的。

 
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