From the last paragraph we can learn that A. some pipes have to be re-arranged in winter B. the system can do more than warming up the building C. the exchangers will pick up heat from the street surface 答案 64.D 65.D 66.B Passage 3 A rainforest is an area covered by tall trees with the total high rainfall spreading quite equally through the year and the temperature rarely dipping below l6℃. Rainforests have a great effect on the world environment because they can take in heat from the sun and adjust the climate. Without the forest cover.these areas would reflect more heat into the atmosphere.warming the rest of the world. Losing the rainforests may also influence wind and rainfall patterns.potentially causing certain natural disasters all over the world. In the past hundred years.humans have begun destroying rainforests in search of three major resources:land for crops.wood for paper and other products.land for raising farm animals. This action affects the environment as a whole. For example.a lot of carbon dioxidein the air comes from burning the rainforests. People obviously have a need for the resources we gain from cutting trees but we will suffer much more than we will benefit. There are two main reasons for this. Firstly.when people cut down trees.generally they can only use the land for a year or two. Secondly.cutting large sections of rainforests may provide a good supply of wood right now.but in the long run it actually reduces the world’s wood supply. Rainforests are often called the world’s drug store. More than 25% of the medicines we use today come from plants in rainforests. However.fewer than l%of rainforest plants have been examined for their medical value. It is extremely likely that our best chance to cure diseases lies somewhere in the world’s shrinking rainforests. 查看更多

 

题目列表(包括答案和解析)

Sometimes, the simplest ideas are the best. For example, to absorb heat from the sun to heat water, you need large, flat, black surfaces. One way to do that is to build those surfaces specially, on the roofs of buildings. But why go to all that trouble when cities are full of black surfaces already, in the form of asphalt (柏油) roads?
Ten years ago, this thought came into the mind of Arian de Bondt, a Dutch engineer. He finally persuaded his boss to follow it up. The result is that their building is now heated in winter and cooled in summer by a system that relies on the surface of the road outside.
The heat-collector is a system of connected water pipes. Most of them ran from one side of the street to the other, just under the asphalt road. Some, however, dive deep into the ground.
When the street surface gets hot in summer, water pumped through the pipes picks up this heat and takes it underground through one of the diving pipes. At a depth of 100 metres lies a natural aquifer (蓄水层) into which several heat exchangers (交换器) have been built. The hot water from the street runs through these exchangers, warning the ground-water, before returning to the surface through another pipe. The aquifer is thus used as a heat store.
In winter, the working system is changed slightly. Water is pumped through the heat exchangers to pick up the heat stored during summer. This water goes into the building and is used to warm the place up. After performing that task, it is pumped under the asphalt and its remaining heat keeps the road free of snow and ice

  1. 1.

    Which of the following is true according to the first two paragraphs?

    1. A.
      Arian de Bondt got his idea from his boss
    2. B.
      Large, flat, black surfaces need to be built in cities
    3. C.
      The Dutch engineer’s system has been widely used
    4. D.
      Heat can also be collected from asphalt roads
  2. 2.

    For what purpose are the diving pipes used?

    1. A.
      To absorb heat from the sun
    2. B.
      To store heat for future use
    3. C.
      To turn solar energy into heat energy
    4. D.
      To carry heat down below the surface
  3. 3.

    From the last paragraph we can learn that               

    1. A.
      some pipes have to be re-arranged in winter
    2. B.
      the system can do more than warming up the building
    3. C.
      the exchangers will pick up heat from the street surface
    4. D.
      less heat may be collected in winter than in summer
  4. 4.

    What is most likely to be discussed in the paragraph that follows?

    1. A.
      What we shall do if the system goes wrong
    2. B.
      What we shall do if there are no asphalt roads
    3. C.
      How the system cools the building in summer
    4. D.
      How the system collects heat in spring and autumn

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Sometimes, the simplest ideas are the best. For example, to absorb heat from the sun to heat water, you need large, flat, back surfaces. One way to do that is to build those surfaces specially, on the roofs of buildings. But why go to all that trouble when cities are full of black surfaces already, in the form of asphalt(柏油) roads ?

Ten years ago, this thought came into the mind of Arian de Bondt, a Dutch engineer. He finally persuaded his boss to follow it up. The result is that their building is now heated in winter and cooled in summer by a system that relies on the surface of the road outside.

The heat-collector is a system of connected water pipes. Most of them run from one side of the street to the other, just under the asphalt road. Some, however, dive deep into the ground.

When the street surface gets hot in summer, water pumped through the pipes picks up this heat and takes it underground through one of the diving pipes. At a depth of 100 metres lies a natural aquifer(蓄水层) into which several heat exchangers(交换器)have been built. The hot water from the street runs through these exchangers, warming the groundwater, before returning to the surface through another pipe. The aquifer is thus used as a heat store.

In winter, the working system is changed slightly. Water is pumped through the heat exchangers to pick up the heat stored during summer. This water goes into the building and is used to warm the place up. After performing that task, it is pumped under the asphalt and its remaining heat keeps the road free of snow and ice.

Which of the following is true according to the first two paragraphs ?

Arian de Bondt got his idea from his boss.

Large, flat, black surfaces need to be built in cities.

The Dutch engineer’s system has been widely used.

Heat can also be collected from asphalt roads.

For what purpose are the diving pipes used ?

A. To absorb heat from the sun.              B. To store heat for future use.

C. To turn solar energy into heat energy.       D. To carry heat down below the surface.

From the last paragraph we can learn that __________.

   A. some pipes have to be re-arranged in winter

   B. the system can do more than warming up the building

   C. the exchangers will pick up heat

   D. less heat may be collected in winter than in summer

What is most likely to be discussed in the paragraph that follows ?

A. What we shall do if the system goes wrong. 

B. What we shall do if there are no asphalt roads.

C. How the system cools the building in summer.

D. How the system collects heat in spring and autumn.

查看答案和解析>>

Sometimes, the simplest ideas are the best. For example, to absorb heat from the sun to heat water, you need large, flat, black surfaces. One way to do that is to build those surfaces specially, on the roofs of buildings. But why go to all that trouble when cities are full of black surfaces already, in the form of asphalt (柏油) roads?

    Ten years ago, this thought came into the mind of Arian de Bondt, a Dutch engineer. He finally persuaded his boss to follow it up. The result is that their building is now heated in winter and cooled in summer by a system that relies on the surface of the road outside.

    The heat-collector is a system of connected water pipes. Most of them ran from one side of the street to the other, just under the asphalt road. Some, however, dive deep into the ground.

    When the street surface gets hot in summer, water pumped through the pipes picks up this heat and takes it underground through one of the diving pipes. At a depth of 100 metres lies a natural aquifer (蓄水层) into which several heat exchangers (交换器) have been built. The hot water from the street runs through these exchangers, warning the ground-water, before returning to the surface through another pipe. The aquifer is thus used as a heat store.

    In winter, the working system is changed slightly. Water is pumped through the heat exchangers to pick up the heat stored during summer. This water goes into the building and is used to warm the place up. After performing that task, it is pumped under the asphalt and its remaining heat keeps the road free of snow and ice.

Which of the following is true according to the first two paragraphs?  

        A. Arian de Bondt got his idea from his boss.

        B. Large, flat, black surfaces need to be built in cities.

C. The Dutch engineer’s system has been widely used.

D. Heat can also be collected from asphalt roads.

For what purpose are the diving pipes used?  

        A. To absorb heat from the sun.             B. To store heat for future use.

C. To turn solar energy into heat energy.      D. To carry heat down below the surface.

From the last paragraph we can learn that __ 

        A. some pipes have to be re-arranged in winter

        B. the system can do more than warming up the building

        C. the exchangers will pick up heat from the street surface

        D. less heat may be collected in winter than in summer

What is most likely to be discussed in the paragraph that follows?  

         A. What we shall do if the system goes wrong.

         B. What we shall do if there are no asphalt roads.

         C. How the system cools the building in summer.

        D. How the system collects heat in spring and autumn

查看答案和解析>>

 

Sometimes, the simplest ideas are the best. For example, to absorb heat from the sun to heat water, you need large, flat, back surfaces. One way to do that is to build those surfaces specially, on the roofs of buildings. But why go to all that trouble when cities are full of black surfaces already, in the form of asphalt(柏油) roads ?

Ten years ago, this thought came into the mind of Arian de Bondt, a Dutch engineer. He finally persuaded his boss to follow it up. The result is that their building is now heated in winter and cooled in summer by a system that relies on the surface of the road outside.

The heat-collector is a system of connected water pipes. Most of them run from one side of the street to the other, just under the asphalt road. Some, however, dive deep into the ground.

When the street surface gets hot in summer, water pumped through the pipes picks up this heat and takes it underground through one of the diving pipes. At a depth of 100 metres lies a natural aquifer(蓄水层) into which several heat exchangers(交换器)have been built. The hot water from the street runs through these exchangers, warming the groundwater, before returning to the surface through another pipe. The aquifer is thus used as a heat store.

In winter, the working system is changed slightly. Water is pumped through the heat exchangers to pick up the heat stored during summer. This water goes into the building and is used to warm the place up. After performing that task, it is pumped under the asphalt and its remaining heat keeps the road free of snow and ice.

1.Which of the following is true according to the first two paragraphs ?

Arian de Bondt got his idea from his boss.

Large, flat, black surfaces need to be built in cities.

The Dutch engineer’s system has been widely used.

Heat can also be collected from asphalt roads.

2.For what purpose are the diving pipes used ?

A. To absorb heat from the sun.              B. To store heat for future use.

C. To turn solar energy into heat energy.       D. To carry heat down below the surface.

3.From the last paragraph we can learn that __________.

   A. some pipes have to be re-arranged in winter

   B. the system can do more than warming up the building

   C. the exchangers will pick up heat

   D. less heat may be collected in winter than in summer

4.What is most likely to be discussed in the paragraph that follows ?

A. What we shall do if the system goes wrong. 

B. What we shall do if there are no asphalt roads.

C. How the system cools the building in summer.

D. How the system collects heat in spring and autumn.

 

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阅读理解。
     Sometimes, the simplest ideas are the best. For example, to absorb heat from the sun to heat water, you
need large, flat, black surfaces. One way to do that is to build those surfaces specially, on the roofs of
buildings. But why go to all that trouble when cities are rub of black surfaces already, in the form of asphalt
(柏油) roads?
     Ten years ago, this thought came into the mind of Arian de Bondt, a Dutch engineer. He finally persuaded
his boss to follow it up. The result is that their building is now heated in winter and cooled in summer by a
system that relies on the surface of the road outside.
     The heat-collector is a system of connected water pipes. Most of them ran from one side of the street to
the other, just under the asphalt road. Some, however, dive deep into the ground.
     When the street surface gets hot in summer, water pumped through the pipes picks up this heat and takes
it underground through one of the diving pipes. At a depth of 100 metres lies a natural aquifer (蓄水层) into
which several heat exchangers (交换器) have been built. The hot water from the street runs through these
exchangers, warning the ground-water, before returning to the surface through another pipe. The aquifer is
thus used as a heat store.
     In winter, the working system is changed slightly. Water is pumped through the heat exchangers to pick
up the heat stored during summer. This water goes into the building and is used to warm the place up. After
performing that task, it is pumped under the asphalt and its remaining heat keeps the road free of snow and
ice.
1. Which of the following is true according to the first two paragraphs?
 A. Arian de Bondt got his idea from his boss.
B. Large, flat, black surfaces need to be built in cities.
C. The Dutch engineer's system has been widely used.
D. Heat can also be collected from asphalt roads.
2. For what purpose are the diving pipes used?
A. To absorb heat from the sun.
B. To store heat for future use.
C. To turn solar energy into heat energy.
D. To carry heat down below the surface.
3. From the last paragraph we can learn that _____.
A. some pipes have to be re-arranged in winter
B. the system can do more than warming up the building
C. the exchangers will pick up heat from the street surface
D. less heat may be collected in winter than in summer
4. What is most likely to be discussed in the paragraph that follows?
A. What we shall do if the system goes wrong.
B. What we shall do if there are no asphalt roads.
C. How the system cools the building in summer.
D. How the system collects heat in spring and autumn.

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