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Ano: 2006
Banca:
CESGRANRIO
Órgão:
Transpetro
Provas:
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Pleno
|
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Júnior |
Q1835
Inglês
Texto associado
The oil and natural gas industry has developed and
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
In: http://api-ec.api.org/focus/index
In ". the industry must continue to invest in conventional resources such as oil and natural gas." (lines 60-61), the word that could replace "must" without changing the meaning of the sentence is:
Ano: 2006
Banca:
CESGRANRIO
Órgão:
Transpetro
Provas:
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Pleno
|
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Júnior |
CESGRANRIO - 2006 - Transpetro - Contador Júnior - Contábil |
CESGRANRIO - 2006 - Transpetro - Contador Júnior - Auditoria Interna |
CESGRANRIO - 2006 - Transpetro - Administrador Júnior |
CESGRANRIO - 2006 - Transpetro - Médico do Trabalho Júnior |
CESGRANRIO - 2006 - Transpetro - Economista Júnior |
CESGRANRIO - 2006 - Transpetro - Profissional de Meio Ambiente Júnior |
Q1834
Inglês
Texto associado
The oil and natural gas industry has developed and
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
In: http://api-ec.api.org/focus/index
According to lines 44-50, gas hydrates:
Ano: 2006
Banca:
CESGRANRIO
Órgão:
Transpetro
Provas:
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Pleno
|
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Júnior |
CESGRANRIO - 2006 - Transpetro - Contador Júnior - Contábil |
CESGRANRIO - 2006 - Transpetro - Contador Júnior - Auditoria Interna |
CESGRANRIO - 2006 - Transpetro - Administrador Júnior |
CESGRANRIO - 2006 - Transpetro - Médico do Trabalho Júnior |
CESGRANRIO - 2006 - Transpetro - Economista Júnior |
CESGRANRIO - 2006 - Transpetro - Profissional de Meio Ambiente Júnior |
Q1833
Inglês
Texto associado
The oil and natural gas industry has developed and
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
In: http://api-ec.api.org/focus/index
The function of the fourth paragraph is to:
Ano: 2006
Banca:
CESGRANRIO
Órgão:
Transpetro
Provas:
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Pleno
|
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Júnior |
CESGRANRIO - 2006 - Transpetro - Contador Júnior - Contábil |
CESGRANRIO - 2006 - Transpetro - Contador Júnior - Auditoria Interna |
CESGRANRIO - 2006 - Transpetro - Administrador Júnior |
CESGRANRIO - 2006 - Transpetro - Médico do Trabalho Júnior |
CESGRANRIO - 2006 - Transpetro - Economista Júnior |
CESGRANRIO - 2006 - Transpetro - Profissional de Meio Ambiente Júnior |
Q1832
Inglês
Texto associado
The oil and natural gas industry has developed and
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
In: http://api-ec.api.org/focus/index
According to the second paragraph, state-of-the-art technology brings many benefits, EXCEPT:
Ano: 2006
Banca:
CESGRANRIO
Órgão:
Transpetro
Provas:
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Pleno
|
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Júnior |
Q1831
Inglês
Texto associado
The oil and natural gas industry has developed and
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
applied an impressive array of innovative technologies to
improve productivity and efficiency, while yielding
environmental benefits. According to the U.S. Department
of Energy, "the petroleum business has transformed itself
into a high-technology industry."
State-of-the-art technology allows the industry to
produce more oil and natural gas from more remote
places - some previously unreachable - with significantly
less adverse effect on the environment. Among the
benefits: increased supply to meet the world's growing
energy demand, reduced energy consumption at oil and
natural gas facilities and refineries, reduced noise from
operations, decreased size of facilities, reduced
emissions of pollutants, better protection of water
resources, and preservation of habitats and wildlife.
With advanced exploration and production
technologies, the oil and gas industry can pinpoint
resources more accurately, extract them more efficiently
and with less surface disturbance, minimize associated
wastes, and, ultimately, restore sites to original or better
condition.
Exploration and production advances include
advanced directional drilling, slimhole drilling, and 3-D
seismic technology. Other segments of the industry have
benefited from technological advances as well. Refineries
are becoming highly automated with integrated process
and energy system controls; this results in improved
operational and environmental performance and enables
refineries to run harder and produce more products safer
than ever before. Also, new process equipment and
catalyst technology advances have been made very
recently to meet new fuel regulations requiring very low
levels of sulfur in gasoline and diesel.
Technology advances such as these are making it
possible for the oil and natural gas industry to grow in
tandem with the nation's energy needs while maintaining
a cleaner environment. The industry is committed to
investing in advanced technologies that will continue to
provide affordable and reliable energy to support our
current quality of life, and expand our economic horizons.
For example, we are researching fuel cells that may
power the vehicles of tomorrow with greater efficiency
and less environmental impact. We are investigating ways
to tap the huge natural gas resources locked in gas
hydrates. Gas hydrates are common in sediments in
the ocean's deep waters where cold temperatures and
high pressures cause natural gas and water to freeze
together, forming solid gas hydrates. Gas hydrates could
be an important future source of natural gas for our nation.
Some of our companies are also investigating
renewable energy resources such as solar, wind,
biomass and geothermal energy. By conducting research
into overcoming the many technological hurdles that limit
these energy resources, they hope to make them more
reliable, affordable and convenient for future use. Although
the potential for these energy resources is great,
scientists do not expect them to be a significant part of
the nation's energy mix for many decades. For this
reason, the industry must continue to invest in
conventional resources such as oil and natural gas. We
will need to rely on these important energy resources for
many decades to come.
In: http://api-ec.api.org/focus/index
The fragment ".an impressive array of innovative technologies." (line 2) could best be substituted by a/an:
Ano: 2006
Banca:
CESGRANRIO
Órgão:
Transpetro
Provas:
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Pleno
|
CESGRANRIO - 2006 - Transpetro - Analista de Sistemas Júnior |
Q1830
Português
Texto associado
O QUE É... DECISÃO
No mundo corporativo, há algo vagamente conhecido
como "processo decisório", que são aqueles insondáveis
critérios adotados pela alta direção da empresa
para chegar a decisões que o funcionário não consegue
entender. Tudo começa com a própria origem da palavra
"decisão", que se formou a partir do verbo latino caedere
(cortar). Dependendo do prefixo que se utiliza, a palavra
assume um significado diferente: "incisão" é cortar para
dentro, "rescisão" é cortar de novo, "concisão" é o que já
foi cortado, e assim por diante. E dis caedere, de onde
veio "decisão", significa "cortar fora". Decidir é, portanto,
extirpar de uma situação tudo o que está atrapalhando e
ficar só com o que interessa.
E, por falar em cortar, todo mundo já deve ter
ouvido a célebre história do não menos célebre rei
Salomão, mas permitam-me recontá-la, transportando
os acontecimentos para uma empresa moderna. Então,
está um dia o rei Salomão em seu palácio, quando duas
mulheres são introduzidas na sala do trono. Aos berros
e puxões de cabelo, as duas disputam a maternidade
de uma criança recém-nascida. Ambas possuem
argumentos sólidos: testemunhos da gravidez recente,
depoimentos das parteiras, certidões de nascimento.
Mas, obviamente, uma das duas está mentindo: havia
perdido o seu bebê e, para compensar a dor, surrupiara
o filho da outra. Como os testes de DNA só seriam
inventados dali a milênios, nenhuma das autoridades
imperiais consultadas pelas litigantes havia conseguido
dar uma solução satisfatória ao impasse.
Então Salomão, em sua sabedoria, chama um
guarda, manda-o cortar a criança ao meio e dar metade
para cada uma das reclamantes. Diante da catástrofe
iminente, a verdadeira mãe suplica: "Não! Se for assim, ó
meu Senhor, dê a criança inteira e viva à outra!", enquanto
a falsa mãe faz aquela cara de "tudo bem, corta aí". Pronto.
Salomão manda entregar o bebê à mãe em pânico, e a
história se encerra com essa salomônica demonstração
de conhecimento da natureza humana.
Mas isso aconteceu antigamente. Se fosse hoje,
com certeza as duas mulheres optariam pela primeira
alternativa (porque ambas teriam feito um curso de Tomada
de Decisões). Aí é que entram os processos decisórios
dos salomões corporativos. Um gerente salomão
perguntaria à mãe putativa A: "Se eu lhe der esse menino,
ó mulher, o que dele esperas no futuro?" E ela diria:
"Quero que ele cresça com liberdade, que aprenda a cantar
com os pássaros e que possa viver 100 anos de felicidade".
E a mesma pergunta seria feita à mãe putativa B, que de
pronto responderia: "Que o menino cresça forte e obediente
e que possa um dia, por Vossa glória e pela glória
de Vosso reino, morrer no campo de batalha". Então, sem
piscar, o gerente salomão ordenaria que o bebê fosse
entregue à mãe putativa B.
Por quê? Porque na salomônica lógica das
empresas, a decisão dificilmente favorece o funcionário
que tem o argumento mais racional, mais sensato, mais
justo ou mais humano. A balança sempre pende para os
putativos que trazem mais benefício para o sistema.
GEHRINGER, Max. Revista Você S/A, jan. 2002.
Assinale a opção em que o sinal de dois pontos tem a mesma função apresentada em "Mas, obviamente, uma das duas está mentindo: havia perdido o seu bebê e, para compensar a dor, surrupiara o filho da outra." (l. 24-26)
Ano: 2023
Banca:
CESGRANRIO
Órgão:
Transpetro
Prova:
CESGRANRIO - 2023 - Transpetro - Técnico de Segurança |
Q2322336
Segurança e Saúde no Trabalho
Os incêndios têm um enorme potencial destruidor. Como
uma das medidas de prevenção, a NR 23 – Proteção Contra Incêndios – estabelece que a organização deve instruir sobre a utilização dos equipamentos de combate ao
incêndio.
Essa norma também determina que a organização deve providenciar, para todos os trabalhadores, informações sobre
Essa norma também determina que a organização deve providenciar, para todos os trabalhadores, informações sobre
Ano: 2018
Banca:
CESGRANRIO
Órgão:
Transpetro
Prova:
CESGRANRIO - 2018 - Transpetro - Advogado Júnior |
Q884816
Direito Administrativo
Quando a Lei n° 8.666/1993 estabelece os critérios de
julgamento como sendo menor preço, melhor técnica e
outros, está estabelecendo o denominado principio do
julgamento
Ano: 2018
Banca:
CESGRANRIO
Órgão:
Transpetro
Prova:
CESGRANRIO - 2018 - Transpetro - Advogado Júnior |
Q884808
Direito Empresarial (Comercial)
R. comunica a T. que em breve se desligará da sociedade empresarial que ambos mantêm, existente há dez anos. Sabendo que em breve passará à condição de único sócio da empresa, T, com a intenção de encontrar um novo parceiro, consulta seu advogado para saber sobre o risco de a sociedade se dissolver em função da ausência de pluralidade de sócios.
Considerando o Código Civil de 2002, o advogado informa a T que o prazo, em dias, para reconstituir a sociedade é de
Ano: 2023
Banca:
CESGRANRIO
Órgão:
Transpetro
Prova:
CESGRANRIO - 2023 - Transpetro - Profissional Transpetro de Nível Superior - Junior: Ênfase 6: Processos de Negócios |
Q2325491
Banco de Dados
Considere o esquema relacional simplificado de um banco de dados de uma Universidade, contendo, ao menos, as seguintes tabelas:
Departamentos (ID_Departamento, Nome, Localizacao) Professores (ID_Professor, Nome, ID_Departamento) Alunos (ID_Aluno, Nome, ID_Professor_Orientador)
Entre outras restrições que devem ser consideradas, sabe-se que alunos podem ser orientados por professores e que todo professor pertence a um departamento.
Considerando-se o esquema relacional apresentado, o trecho de código em linguagem SQL DDL que respeita todas as restrições de integridade citadas é
Departamentos (ID_Departamento, Nome, Localizacao) Professores (ID_Professor, Nome, ID_Departamento) Alunos (ID_Aluno, Nome, ID_Professor_Orientador)
Entre outras restrições que devem ser consideradas, sabe-se que alunos podem ser orientados por professores e que todo professor pertence a um departamento.
Considerando-se o esquema relacional apresentado, o trecho de código em linguagem SQL DDL que respeita todas as restrições de integridade citadas é
Ano: 2023
Banca:
CESGRANRIO
Órgão:
Transpetro
Prova:
CESGRANRIO - 2023 - Transpetro - Técnico de Projetos, Construções e Montagem - Edificações |
Q2324849
Engenharia Civil
Na fiscalização de um contrato, coube a um técnico
verificar se o quantitativo pago por um serviço de pavimentação está de acordo com o efetivamente realizado.
O serviço é de 500 m2
e já foram registrados como concluídos e pagos 70% do total. Visitando a obra, o técnico
constatou as seguintes áreas retangulares pavimentadas:
A1 = 25,0 m x 5,0 m; A2 = 13,0 m x 8,0 m;
A3 = 10,0 m x 7,5 m; A4 = 8,0 m x 5,0 m.
Ao efetuar os cálculos, o técnico verificou que, em relação ao quantitativo executado, o quantitativo pago está
A1 = 25,0 m x 5,0 m; A2 = 13,0 m x 8,0 m;
A3 = 10,0 m x 7,5 m; A4 = 8,0 m x 5,0 m.
Ao efetuar os cálculos, o técnico verificou que, em relação ao quantitativo executado, o quantitativo pago está
Conheça nossos planos