Thursday, 2 June 2011

Surah An Nur @ 43, Ar Ruum @ 48 & Az Zumar @ 21.... penerangan saintifik

The Hydrological Cycle

(also known as the water cycle) is the journey water takes as it circulates from the land to the sky and back again.

The sun's heat provides energy to evaporate water from the earth's surface (oceans, lakes, etc.). Plants also lose water to the air - this is called transpiration. The water vapour eventually condenses, forming tiny droplets in clouds.

When the clouds meet cool air over land, precipitation (rain, sleet, or snow) is triggered, and water returns to the land (or sea). Some of the precipitation soaks into the ground. Some of the underground water is trapped between rock or clay layers - this is called groundwater. But most of the water flows downhill as runoff (above ground or underground), eventually returning to the seas as slightly salty water.

This Information page provides an understanding of the hydrological cycle. It describes the principal stages of the cycle, with a brief description of each stage. A diagram gives a clear visual explanation. The links between the hydrological cycle and the duties of a water utility to supply clean water and dispose of dirty water are also explained.

Where is all the Earth’s water?

Water is the most widespread substance to be found in the natural environment and it is the source of all life on earth. Water covers 70% of the earth’s surface but it is difficult to comprehend the total amount of water when we only see a small portion of it. The distribution of water throughout the earth is not uniform. Some places have far more rainfall than others.

There are many reasons for this, such as where the mountains are and where the prevailing winds blow. This rainfall distribution partly explains the differences in vegetation and why some areas are deserts and some are rainforests.

Water exists in three states: liquid, solid and invisible vapour. It forms the oceans, seas, lakes, rivers and the underground waters found in the top layers of the earth’s crust and soil cover. In a solid state, it exists as ice and snow cover in polar and alpine regions. A certain amount of water is contained in the air as water vapour, water droplets and ice crystals, as well as in the biosphere. Huge amounts of water are bound up in the composition of the different minerals of the earth’s crust and core.

To assess the total water storage on the earth reliably is a complicated problem because water is so very dynamic. It is in permanent motion, constantly changing from liquid to solid or gaseous phase, and back again. The quantity of water found in the hydrosphere is the usual way of estimating the earth’s water. This is all the free water existing in liquid, solid or gaseous state in the atmosphere, on the Earth’s surface and in the crust down to a depth of 2000 metres. Current estimates are that the earth’s hydrosphere contains a huge amount of water - about 1386 million cubic kilometres. However, 97.5% of this amount exists as saline waters and only 2.5% as fresh water.

The greatest portion of the fresh water (68.7%) is in the form of ice and permanent snow cover in the Antarctic, the Arctic and in the mountainous regions. 29.9% exists as fresh groundwaters. Only 0.26% of the total amount of fresh water on the earth is concentrated in lakes, reservoirs and river system, where it is most easily accessible for our economic needs and absolutely vital for water ecosystems.

The values for stored water given above are for natural, static, water storage in the hydrosphere. It is the amount of water contained simultaneously, on average, over a long period of time, – in water bodies, aquifers and the atmosphere. For shorter time intervals such as a single year, a couple of seasons or a few months, the volume of water stored in the hydrosphere will vary as water exchanges take place between the oceans, land and the atmosphere.

What is the Hydrological Cycle?

The total amount of water on the earth and in its atmosphere does not change but the earth’s water is always in movement. Oceans, rivers, clouds and rain, all of which contain water, are in a frequent state of change and the motion of rain and flowing rivers transfers water in a never-ending cycle. This circulation and conservation of earth’s water as it circulates from the land to the sky and back again is called the ‘hydrological cycle’ or ‘water cycle’.

How does the Hydrological Cycle work?

The stages of the cycle are:

  • Evaporation 
  • Transport 
  • Condensation 
  • Precipitation 
  • Groundwater 
  • Run-off

Water is transferred from the surface to the atmosphere through evaporation, the process by which water changes from a liquid to a gas. The sun’s heat provides energy to evaporate water from the earth’s surface. Land, lakes, rivers and oceans send up a steady stream of water vapour and plants also lose water to the air (transpiration).

Approximately 80% of all evaporation is from the oceans, with the remaining 20% coming from inland water and vegetation.


The movement of water through the atmosphere, specifically from over the oceans to over land, is called transport. Some of the earth’s moisture transport is visible as clouds, which themselves consist of ice crystals and/or tiny water droplets.

Clouds are propelled from one place to another by either the jet stream, surface-based circulations like land and sea breezes or other mechanisms. However, a typical cloud 1 km thick contains only enough water for a millimetre of rainfall, whereas the amount of moisture in the atmosphere is usually 10-50 times greater than this.

Most water is transported in the form of water vapour, which is actually the third most abundant gas in the atmosphere. Water vapour may be invisible to us, but not to satellites which are capable of collecting data about moisture patterns in the atmosphere.


The transported water vapour eventually condenses, forming tiny droplets in clouds.


The primary mechanism for transporting water from the atmosphere to the surface of the earth is precipitation.

When the clouds meet cool air over land, precipitation, in the form of rain, sleet or snow, is triggered and water returns to the land (or sea). A proportion of atmospheric precipitation evaporates.


Some of the precipitation soaks into the ground and this is the main source of the formation of the waters found on land - rivers, lakes, groundwater and glaciers.

Some of the underground water is trapped between rock or clay layers - this is called groundwater. Water that infiltrates the soil flows downward until it encounters impermeable rock and then travels laterally. The locations where water moves laterally are called ‘aquifers’. Groundwater returns to the surface through these aquifers, which empty into lakes, rivers and the oceans.

Under special circumstances, groundwater can even flow upward in artesian wells. The flow of groundwater is much slower than run-off with speeds usually measured in centimetres per day, metres per year or even centimetres per year.


Most of the water which returns to land flows downhill as run-off. Some of it penetrates and charges groundwater while the rest, as river flow, returns to the oceans where it evaporates. As the amount of groundwater increases or decreases, the water table rises or falls accordingly. When the entire area below the ground is saturated, flooding occurs because all subsequent precipitation is forced to remain on the surface.

Different surfaces hold different amounts of water and absorb water at different rates. As a surface becomes less permeable, an increasing amount of water remains on the surface, creating a greater potential for flooding. Flooding is very common during winter and early spring because frozen ground has no permeability, causing most rainwater and meltwater to become run-off.

This entire process repeats as illustrated in Figure 1.

Figure 1.

The stages of the Hydrological Cycle.

Diagram from Max Planck Institute for Meteorology 

A Water Balance

A considerable portion of river flow does not reach the ocean, having evaporated those areas with no natural surface run-off channels. On the other hand, some groundwater bypasses river systems altogether and goes directly to the ocean or evaporates.

Every year, the turnover of water on Earth involves 577,000 km3 of water. This is water that evaporates from the ocean surface (502,800 km3) and from land (74,200 km3). The same amount of water falls as atmospheric precipitation, 458,000 km3 on the ocean and 119,000 km3 on land. The difference between precipitation and evaporation from the land surface (119,000?–?74,200 = 44,800 km3/year) represents the total run-off of the Earth’s rivers (42,700 km3/year) and direct groundwater run-off.

How does Water Supply and Sewage Disposal

fit into the Hydrological Cycle? 

We have seen that water flows into rivers, lakes and into groundwater storage. Most importantly, for our daily water needs, it also flows into our homes and taps. A network of underground pipes, pumping stations and treatment works ensures that clean, fresh drinking water is delivered by our local water utility to our homes every day of the week. After water has been used, the water utility collects, transports and then cleans this dirty water and returns it safely back into rivers where it can continue its journey downstream to the sea.

The water utility’s responsibility begins at the precipitation stage of the hydrological cycle. Utilities in some water-scarce countries encourage the collection of rainwater from rooftops (rainwater harvesting) but in most of Europe the hydrological cycle begins with surface waters.

Figure 2 illustrates the water utility’s role in the hydrological cycle.

Figure 2.

The Water Utility’s Role in the Hydrological (Water) Cycle.

Reference UK Drinking Water Inspectorate website

Surface Waters

Rainwater takes the quickest route to the sea and flows into rivers, streams, lakes and aquifers. The water in the surface waters is clean enough to support a variety of wildlife, but it is not safe to drink and needs to be treated in a water treatment works to remove any harmful substances.

Water Treatment Works

Water is abstracted from underground sources via boreholes or alternatively is pumped from rivers and stored in reservoirs before being passed through sand filter beds which trap any dirt and organisms. It is then treated using the most up to date advanced water treatment (AWT) technology such as ozonation and carbon filtration (granular activated carbon) which remove the substances that we cannot see.

(Note however that a large proportion of groundwater receives chlorination only and many surface water sources do not need AWT and use only coagulation/sedimentation/filtration.)

Water Distribution

Clean, fresh drinking water is pumped into an underground network of pipes and storage reservoirs and is not seen again until it reaches your tap. This guarantees that the water you drink remains clean and fresh.

Water Use

On average, in European countries, each person uses around 150 litres (33 gallons) of water every day. Baths, showers, washing up, washing clothes and toilet flushing all use large amounts of water. These activities transform clean tap water into dirty wastewater. The water utility not only supplies clean drinking water but also collects, transports and disposes of the dirty water after it has been used.


Dirty water or sewage is collected firstly in drains and then in underground sewers and is transported via a sewerage system (a network of pipes and tunnels) to a sewage treatment works.

Sewage Treatment Works

These works use natural micro-organisms to remove harmful substances from dirty water. The solid material (sludge) is separated from the liquid (effluent) and both are treated to produce clean effluent that can be released back to the river and bio-solids that can be used in agriculture as a fertiliser or incinerated to produce energy.

Use as a fertiliser completes nutrient cycles and replenishes soil organic matter and sequestered carbon. The majority of sludge is treated by anaerobic digestion (AD), which produces biogas renewable energy.

Completing the Cycle

The river continues its journey back to the sea where the cycle starts again. Water evaporates to form clouds, condenses to droplets and eventually falls as rain on to the ground.

Mari kita lihat pula 3 potong ayat ini.....

1- An Nur [43]

Tidakkah engkau melihat bahawasanya Allah mengarahkan awan bergerak perlahan-lahan, kemudian Dia mengumpulkan kelompok-kelompoknya, kemudian Dia menjadikannya tebal berlapis-lapis? Selepas itu engkau melihat hujan turun dari celah-celahnya. Dan Allah pula menurunkan hujan batu dari langit, dari gunung-ganang (awan) yang ada padanya; lalu Ia menimpakan hujan batu itu kepada sesiapa yang dikehendakiNya, dan menjauhkannya dari sesiapa yang dikehendakiNya. Sinaran kilat yang terpancar dari awan yang demikian keadaannya, hampir-hampir menyambar dan menghilangkan pandangan.

2- Ar Rum [48]

Allah jualah yang menghantarkan angin, lalu angin itu menggerakkan awan; kemudian Allah menyebarkan awan itu di langit sebagaimana yang dikehendakiNya, dan menjadikannya berkelompok-kelompok; lalu engkau melihat hujan keluar dari celah-celahnya. Maka apabila Allah menurunkan hujan itu mengenai sesiapa yang dikehendakiNya dari hamba-hambanya, mereka serta merta bergembira;

3- Az Zumar[21]

Tidakkah engkau memerhatikan, bahawa Allah menurunkan hujan dari langit, lalu dialirkanNya menjadi matair-matair di bumi; kemudian Ia menumbuhkan dengan air itu tanaman-tanaman yang berbagai jenis dan warnanya; kemudian tanaman-tanaman itu bergerak segar (hingga ke suatu masa yang tertentu), selepas itu engkau melihatmu berupa kuning; kemudian Ia menjadikannya hancur bersepai? Sesungguhnya segala yang tersebut itu mengandungi peringatan yang menyedarkan orang-orang yang berakal sempurna.

Ketiga2 ayat ini berkaitan dgn hydrological Cycle. Ianya menjadi asas kpd setiap perancangan projek berasaskan air....bekalan air, hydropower, pengairan, saliran, tebatan banjir, sewerage & pengurusan sumber air..

Indah bukan Al-Quran yg diturunkan... Bukankah sepatutnya pakar2 sains dunia terdiri dari orang2 Islam....

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