理工類(lèi)完型填空考試卷模擬考_試題

1、姓名：_ 班級(jí)：_ 學(xué)號(hào)：_-密-封 -線- 理工類(lèi)完型填空考試卷模擬考_試題考試時(shí)間：120分鐘 考試總分：100分題號(hào)一二三四五總分分?jǐn)?shù)遵守考場(chǎng)紀(jì)律，維護(hù)知識(shí)尊嚴(yán)，杜絕違紀(jì)行為，確?？荚嚱Y(jié)果公正。1、obtaining drinking water from air humiditynot a plant to be seen, the desert ground is too dry. but the air contains water, and research scientists have found a _ (51) of obtaining drinking water fr

2、om air humidity. the system is based completely on renewable energy and is therefore autonomous.cracks permeate the dried-out desert ground and the landscape bears testimony to the lack of water. but even here, where there are no lakes, rivers or groundwater, considerable quantities of water are sto

3、red in the air. in the negev desert in israel, for example, annual average relative air humidity is 64 percent in every cubic meter of air there are 11.5 milliliters of water.german research scientists have found a way of converting this air humidity autonomously into drinkable water. “the process w

4、e have developed is based exclusively on renewable energy sources _ (52) thermal solar collectors and photovoltaic cells, _ (53) makes this method completely energy-autonomous. it will _ (54) function in regions where there is no electrical infrastructure,” says siegfried egner, head of the research

5、 team. the principle of the _ (55) is as follows: hygroscopic brine saline solution which absorbs moisture runs down a tower-shaped unit and absorbs water from the air. it is then sucked _ (56) a tank a few meters off the ground in which a vacuum prevails. energy from solar collectors _ (57) up the

6、brine, which is diluted by the water it has _ (58).because of the vacuum, the boiling point of the liquid is lower than it would be under _(59) atmospheric pressure. this effect is known from the mountains: as the atmospheric pressure there is lower than in the valley, water boils at temperatures di

7、stinctly below 100. the evaporated, non-saline water is condensed and runs down through a completely filled tube in a controlled manner. the gravity of this water column _(60) produces the vacuum and so a vacuum pump is not needed. the reconcentrated brine _ (61) down the tower surface again to abso

8、rb moisture from the air.“the concept is suitable for various water _ (62). single-person units and plants supplying water to entire hotels are conceivable,” says egner. prototypes have been built for _ (63) system components air moisture absorption and vacuum evaporation and the research scientists

9、 have already _ (64) their interplay on a laboratory scale. in a further _ (65) the researchers intend to develop a demonstration facility.（ ）2、obtaining drinking water from air humiditynot a plant to be seen, the desert ground is too dry. but the air contains water, and research scientists have fou

10、nd a _ (51) of obtaining drinking water from air humidity. the system is based completely on renewable energy and is therefore autonomous.cracks permeate the dried-out desert ground and the landscape bears testimony to the lack of water. but even here, where there are no lakes, rivers or groundwater

11、, considerable quantities of water are stored in the air. in the negev desert in israel, for example, annual average relative air humidity is 64 percent in every cubic meter of air there are 11.5 milliliters of water.german research scientists have found a way of converting this air humidity autonom

12、ously into drinkable water. “the process we have developed is based exclusively on renewable energy sources _ (52) thermal solar collectors and photovoltaic cells, _ (53) makes this method completely energy-autonomous. it will _ (54) function in regions where there is no electrical infrastructure,”

13、says siegfried egner, head of the research team. the principle of the _ (55) is as follows: hygroscopic brine saline solution which absorbs moisture runs down a tower-shaped unit and absorbs water from the air. it is then sucked _ (56) a tank a few meters off the ground in which a vacuum prevails. e

14、nergy from solar collectors _ (57) up the brine, which is diluted by the water it has _ (58).because of the vacuum, the boiling point of the liquid is lower than it would be under _(59) atmospheric pressure. this effect is known from the mountains: as the atmospheric pressure there is lower than in

15、the valley, water boils at temperatures distinctly below 100. the evaporated, non-saline water is condensed and runs down through a completely filled tube in a controlled manner. the gravity of this water column _(60) produces the vacuum and so a vacuum pump is not needed. the reconcentrated brine _

16、 (61) down the tower surface again to absorb moisture from the air.“the concept is suitable for various water _ (62). single-person units and plants supplying water to entire hotels are conceivable,” says egner. prototypes have been built for _ (63) system components air moisture absorption and vacu

17、um evaporation and the research scientists have already _ (64) their interplay on a laboratory scale. in a further _ (65) the researchers intend to develop a demonstration facility.（ ）3、obtaining drinking water from air humiditynot a plant to be seen, the desert ground is too dry. but the air contai

18、ns water, and research scientists have found a _ (51) of obtaining drinking water from air humidity. the system is based completely on renewable energy and is therefore autonomous.cracks permeate the dried-out desert ground and the landscape bears testimony to the lack of water. but even here, where

19、 there are no lakes, rivers or groundwater, considerable quantities of water are stored in the air. in the negev desert in israel, for example, annual average relative air humidity is 64 percent in every cubic meter of air there are 11.5 milliliters of water.german research scientists have found a w

20、ay of converting this air humidity autonomously into drinkable water. “the process we have developed is based exclusively on renewable energy sources _ (52) thermal solar collectors and photovoltaic cells, _ (53) makes this method completely energy-autonomous. it will _ (54) function in regions wher

21、e there is no electrical infrastructure,” says siegfried egner, head of the research team. the principle of the _ (55) is as follows: hygroscopic brine saline solution which absorbs moisture runs down a tower-shaped unit and absorbs water from the air. it is then sucked _ (56) a tank a few meters of

22、f the ground in which a vacuum prevails. energy from solar collectors _ (57) up the brine, which is diluted by the water it has _ (58).because of the vacuum, the boiling point of the liquid is lower than it would be under _(59) atmospheric pressure. this effect is known from the mountains: as the at

23、mospheric pressure there is lower than in the valley, water boils at temperatures distinctly below 100. the evaporated, non-saline water is condensed and runs down through a completely filled tube in a controlled manner. the gravity of this water column _(60) produces the vacuum and so a vacuum pump

24、 is not needed. the reconcentrated brine _ (61) down the tower surface again to absorb moisture from the air.“the concept is suitable for various water _ (62). single-person units and plants supplying water to entire hotels are conceivable,” says egner. prototypes have been built for _ (63) system c

25、omponents air moisture absorption and vacuum evaporation and the research scientists have already _ (64) their interplay on a laboratory scale. in a further _ (65) the researchers intend to develop a demonstration facility.（ ）4、obtaining drinking water from air humiditynot a plant to be seen, the de

26、sert ground is too dry. but the air contains water, and research scientists have found a _ (51) of obtaining drinking water from air humidity. the system is based completely on renewable energy and is therefore autonomous.cracks permeate the dried-out desert ground and the landscape bears testimony

27、to the lack of water. but even here, where there are no lakes, rivers or groundwater, considerable quantities of water are stored in the air. in the negev desert in israel, for example, annual average relative air humidity is 64 percent in every cubic meter of air there are 11.5 milliliters of water

28、.german research scientists have found a way of converting this air humidity autonomously into drinkable water. “the process we have developed is based exclusively on renewable energy sources _ (52) thermal solar collectors and photovoltaic cells, _ (53) makes this method completely energy-autonomou

29、s. it will _ (54) function in regions where there is no electrical infrastructure,” says siegfried egner, head of the research team. the principle of the _ (55) is as follows: hygroscopic brine saline solution which absorbs moisture runs down a tower-shaped unit and absorbs water from the air. it is

30、 then sucked _ (56) a tank a few meters off the ground in which a vacuum prevails. energy from solar collectors _ (57) up the brine, which is diluted by the water it has _ (58).because of the vacuum, the boiling point of the liquid is lower than it would be under _(59) atmospheric pressure. this eff

31、ect is known from the mountains: as the atmospheric pressure there is lower than in the valley, water boils at temperatures distinctly below 100. the evaporated, non-saline water is condensed and runs down through a completely filled tube in a controlled manner. the gravity of this water column _(60

32、) produces the vacuum and so a vacuum pump is not needed. the reconcentrated brine _ (61) down the tower surface again to absorb moisture from the air.“the concept is suitable for various water _ (62). single-person units and plants supplying water to entire hotels are conceivable,” says egner. prot

33、otypes have been built for _ (63) system components air moisture absorption and vacuum evaporation and the research scientists have already _ (64) their interplay on a laboratory scale. in a further _ (65) the researchers intend to develop a demonstration facility.（ ）5、obtaining drinking water from

34、air humiditynot a plant to be seen, the desert ground is too dry. but the air contains water, and research scientists have found a _ (51) of obtaining drinking water from air humidity. the system is based completely on renewable energy and is therefore autonomous.cracks permeate the dried-out desert

35、 ground and the landscape bears testimony to the lack of water. but even here, where there are no lakes, rivers or groundwater, considerable quantities of water are stored in the air. in the negev desert in israel, for example, annual average relative air humidity is 64 percent in every cubic meter

36、of air there are 11.5 milliliters of water.german research scientists have found a way of converting this air humidity autonomously into drinkable water. “the process we have developed is based exclusively on renewable energy sources _ (52) thermal solar collectors and photovoltaic cells, _ (53) mak

37、es this method completely energy-autonomous. it will _ (54) function in regions where there is no electrical infrastructure,” says siegfried egner, head of the research team. the principle of the _ (55) is as follows: hygroscopic brine saline solution which absorbs moisture runs down a tower-shaped

38、unit and absorbs water from the air. it is then sucked _ (56) a tank a few meters off the ground in which a vacuum prevails. energy from solar collectors _ (57) up the brine, which is diluted by the water it has _ (58).because of the vacuum, the boiling point of the liquid is lower than it would be

39、under _(59) atmospheric pressure. this effect is known from the mountains: as the atmospheric pressure there is lower than in the valley, water boils at temperatures distinctly below 100. the evaporated, non-saline water is condensed and runs down through a completely filled tube in a controlled man

40、ner. the gravity of this water column _(60) produces the vacuum and so a vacuum pump is not needed. the reconcentrated brine _ (61) down the tower surface again to absorb moisture from the air.“the concept is suitable for various water _ (62). single-person units and plants supplying water to entire

41、 hotels are conceivable,” says egner. prototypes have been built for _ (63) system components air moisture absorption and vacuum evaporation and the research scientists have already _ (64) their interplay on a laboratory scale. in a further _ (65) the researchers intend to develop a demonstration fa

42、cility.（ ）6、obtaining drinking water from air humiditynot a plant to be seen, the desert ground is too dry. but the air contains water, and research scientists have found a _ (51) of obtaining drinking water from air humidity. the system is based completely on renewable energy and is therefore auton

43、omous.cracks permeate the dried-out desert ground and the landscape bears testimony to the lack of water. but even here, where there are no lakes, rivers or groundwater, considerable quantities of water are stored in the air. in the negev desert in israel, for example, annual average relative air hu

44、midity is 64 percent in every cubic meter of air there are 11.5 milliliters of water.german research scientists have found a way of converting this air humidity autonomously into drinkable water. “the process we have developed is based exclusively on renewable energy sources _ (52) thermal solar col

45、lectors and photovoltaic cells, _ (53) makes this method completely energy-autonomous. it will _ (54) function in regions where there is no electrical infrastructure,” says siegfried egner, head of the research team. the principle of the _ (55) is as follows: hygroscopic brine saline solution which

46、absorbs moisture runs down a tower-shaped unit and absorbs water from the air. it is then sucked _ (56) a tank a few meters off the ground in which a vacuum prevails. energy from solar collectors _ (57) up the brine, which is diluted by the water it has _ (58).because of the vacuum, the boiling poin

47、t of the liquid is lower than it would be under _(59) atmospheric pressure. this effect is known from the mountains: as the atmospheric pressure there is lower than in the valley, water boils at temperatures distinctly below 100. the evaporated, non-saline water is condensed and runs down through a

48、completely filled tube in a controlled manner. the gravity of this water column _(60) produces the vacuum and so a vacuum pump is not needed. the reconcentrated brine _ (61) down the tower surface again to absorb moisture from the air.“the concept is suitable for various water _ (62). single-person

49、units and plants supplying water to entire hotels are conceivable,” says egner. prototypes have been built for _ (63) system components air moisture absorption and vacuum evaporation and the research scientists have already _ (64) their interplay on a laboratory scale. in a further _ (65) the resear

50、chers intend to develop a demonstration facility.（ ）7、obtaining drinking water from air humiditynot a plant to be seen, the desert ground is too dry. but the air contains water, and research scientists have found a _ (51) of obtaining drinking water from air humidity. the system is based completely

51、on renewable energy and is therefore autonomous.cracks permeate the dried-out desert ground and the landscape bears testimony to the lack of water. but even here, where there are no lakes, rivers or groundwater, considerable quantities of water are stored in the air. in the negev desert in israel, f

52、or example, annual average relative air humidity is 64 percent in every cubic meter of air there are 11.5 milliliters of water.german research scientists have found a way of converting this air humidity autonomously into drinkable water. “the process we have developed is based exclusively on renewab

53、le energy sources _ (52) thermal solar collectors and photovoltaic cells, _ (53) makes this method completely energy-autonomous. it will _ (54) function in regions where there is no electrical infrastructure,” says siegfried egner, head of the research team. the principle of the _ (55) is as follows

54、: hygroscopic brine saline solution which absorbs moisture runs down a tower-shaped unit and absorbs water from the air. it is then sucked _ (56) a tank a few meters off the ground in which a vacuum prevails. energy from solar collectors _ (57) up the brine, which is diluted by the water it has _ (58).be