Water Resources Reviewer PDF

Summary

This document reviews water resources, covering topics such as the hydrological cycle, the water code of the Philippines, and flood control management, emphasizing the importance of water conservation.

Full Transcript

WATER RESOURCES REVIEWER intervene actively in improving the management of
water resources;
TOPIC 1: HYDROLOGICAL CYCLE “ NOW, THEREFORE, I, FERDINAND E. MARCOS,
President of the Philippines, by virtue of the powers
- Earth’s surface is covered by 71% water ( 97% salt
in me vested by the Constitution, do hereby order
water, 2% fresh water in glacier and ice caps, 1%
and decree the enactment of the Water Code of the
fresh water) Philippines of 1976, as follows:”
- hydrologic cycle is the movement of water on Earth
and in the atmosphere between different states. Chapter 1: (Article 1-4)
- Declaration of Objectives and Principles
The Hydrologic Process

1. Evaporation - occurs when water is heated by the Chapter 2: (Article 5 – 8)
sun, changing it from a liquid to a gas that is known - Ownership of Waters
as water vapor.
2. Condensation - occurs when water changes from a Chapter 3: (Article 9-30)
gas back into a liquid. The liquid collects in the - Appropriation of Waters
clouds.
3. Precipitation - occurs when water falls back to earth. Chapter 4: (Article 31 – 52)
This can happen in the form of rain, hail, sleet and - Utilization of Waters
snow.
4. Collection - occurs when the precipitation collects in Chapter 5: (Article 53 – 65)
oceans, lakes, rivers and streams. it often soaks into - Control of Waters
the ground and is stored as ground water.
5. Runoff - occurs when water flows over the surface Chapter 6: (Article 66 – 78)
and collect water bodies. - Conservation and Protection of Waters and
6. Infiltration - occurs when water seeps into the Watersheds and Related Land Resources
ground to recharge groundwater.
7. Groundwater and Aquifers - Groundwater are Chapter 7: (Article 79 – 89)
waters stored beneath the Earth’s surface. While - Administration of Waters and Enforcement of the
Aquifers are underground layers that hold Provisions of this Code
groundwater.
8. Transpiration is the process by which plants absorb Chapter 8: (Article 90 – 94)
water from the soil and release it into the atmosphere - Penal Provisions
as water vapor through small pores in their leaves.
This process contributes to the total amount of water Chapter 9: (Article 95 – 101)
vapor in the atmosphere and plays a role in - Transitory and Final Provisions
maintaining the Earth's climate.

The hydrologic cycle is important because it moves TOPIC 4: FLOOD CONTROL MANAGEMENT
nutrients around and provides plants, animals and
humans with water. - defined as the prevention or reduction of flood
Geosmin – unpleasant taste/odor after rainfall damage
- cannot be controlled but can be managed
TOPIC 2: WATER CODE OF THE PHILIPPINES
Methods of Flood Management
- A decree instituting a Water Code, thereby revising
and consolidating the laws governing the ownership, - to modify flood
appropriation, utilization, exploitation, development, - to modify susceptibility
conservation and protection of water resources - to reduce the loss
whereas:
Article XIV, Section 8 of the New Constitution of the Aims of Flood Management
Philippines provides, inter alia, that all waters of the
Philippines belong to the State;
- protection of people and property
existing water legislations are piece-meal and
- reduction of flood risk
inadequate to cope with increasing scarcity of water
- monitoring, research, forecasting, and warning
and changing patterns of water use;
there is a need for a Water Code based on rational
concepts of integrated and multipurpose Flood – overflow of excess water that submerges land
management of water resources and sufficiently and inflow of tide onto land; most frequent and deadliest
flexible to adequately meet future developments;
, water is vital to national development and it has Flooding – caused by high rainfall; leads to serious
become increasingly necessary for government to water pollution and epidemiological problems
 Causes of Flooding – intense rainfall, topography of the repair any leakage from pipes. use small capacity
catchment, failure of dam, failure of river embankment taps.

Effects of Flooding – lost homes and properties, Methods of Water Conservation
economic repercussions
Rainwater Harvesting - is a technique of collecting
and storing rainwater is natural reservoirs or tanks for
Types of Flood Management
future utilization.
Greywater Recycling Systems collect water from
1. Hard Engineering (structural) – embankments, sources like baths, hand basins, and showers. This
dams & reservoirs, channel improvement, drainage collected water is reused for cleaning, toilet flushing,
improvement, diversion of flood rivers and other external usages. The main idea behind
2. Soft Engineering (Non-Structural) – flood plain greywater recovery is simply getting the most out of
zoning, flood preparedness, flood forecasting, the water through its efficient reuse.
afforestation, public relief Watershed Management refers to the
comprehensive management of water resources
Although flood is the most deadliest disaster, it still within a specific watershed area—where all the water
has benefits like it recharges ground water, fresh drains to a common outlet, such as a river, lake, or
water flood help in maintaining food plain ocean. It involves the coordination of land, water, and
ecosystem, boost in food production for birds, resource use to ensure sustainable water supply and
facilitation of weather fish to new habitat quality.
Effiecient Taps - Water-efficient taps work in two
TOPIC 6: WATER CONSERVATION TECHNIQUES ways, they can either reduce the water flow rate
through the tap or they can support the user to avoid
- The process of saving water for future utilization is wastage of water by automatically turning it off. These
called Water Conservation. days sensor taps can be seen in almost every
shopping mall or airports, these automatically sense
Rain - principle source of fresh water. Other sources the user’s activity based on which is supplies or turns
are lakes, rivers, oceans, and streams. off the water flow using infrared sensors.

Simple ways to conserve water:
Here are the key advantages of water conservation:

- fix leaks 1. Environmental Protection: Preserves
- taps off ecosystems and helps maintain biodiversity by
- reduce water flow reducing the depletion of natural water sources.
- maintain your irrigation system 2. Cost Savings: Lowers water bills for households
and businesses, resulting in significant savings
two types of water are salt water and fresh water. over time.
96.5 of Earth’s water is saltwater, 2.5% are 3. Energy Efficiency: Reduces the energy needed
freshwater, and the rest are found in other solutions. for water heating and treatment, leading to
lower carbon emissions and a smaller
Strategies of Water Conservation environmental footprint.
4. Drought Preparedness: Builds resilience
1. Reducing evaporation loss: evaporation of water in against droughts and water shortages, ensuring
humid regions can be reduced by placing horizontal communities have access to water during critical
barriers of asphalt below the soil surface, which times.
increases water availability and crop yield. 5. Improved Water Quality: Decreases runoff and
2. Reducing irrigation loss: water loss during pollution, leading to cleaner rivers, lakes, and
irrigation can be reduced by the following methods. groundwater.
6. Sustainable Practices: Encourages
responsible water use in agriculture, industry,
- Growing hybrid crop varieties. Irrigation in early and daily life, supporting long-term
morning or later evening. sustainability.
- Using drip irrigation or sprinkler irrigation. 7. Community Awareness: Fosters a culture of
conservation, inspiring individuals and
3. Re-use of water: Treated water can be used for ferti- communities to adopt eco-friendly practices.
irrigation. Grey water can be used for washing cars,
watering. gardens, etc. Water used for washing TOPIC 7: GROUNDWATER MANAGEMENT
vegetables and fruits can be used to water plants.
Groundwater
4. Preventing wastage of water: wastage of water can - water kept underground in a natural reservoir known
be prevented by: closing the taps when not in use. as an aquifer
- a component of the water cycle, a source of drinking
water for many communities, and moreover, an Industrial waste: Chemical from factories and mining
essential component in agriculture and industry. industries may contaminate groundwater, hence
dangerous.
Importance of Groundwater
Groundwater is formed by infiltration, which is when Landfills and septic systems: Improperly managed
rainwater or surface water filters down through the waste disposal can introduce bacteria and toxic
soil and underground layers of rock, sand, and gravel. substances into the water.
These layers saturated with water are known as
aquifers, which hold water and can be tapped by a Effects: Polluted groundwater may cause acute
well. diseases such as cancers, developmental disorders,
Aquifers can be confined (trapped between layers of and gastrointestinal diseases.
impermeable rock) or unconfined (with direct access
to the Groundwater Management Strategies
surface).
Recharge happens when water replenishes aquifers, Sustainable extraction: Regulating water withdrawal
usually through rainfall or snowmelt. to ensure aquifers have time to recharge naturally.
This includes limiting groundwater pumping during
Storage of Groundwater dry seasons and encouraging efficient irrigation
The main storage for ground water is aquifers. practices.
Aquifers are porous, permeable rock formations or Recharge improvement: Possibilities of increasing
sediments which can hold a lot of water. groundwater levels include collection through
rainwater harvesting and artificial recharge. This can
Types of Aquifers include the catching of runoff as it flows through the
Unconfined aquifers: Water moves freely between ground.
the Prevention of pollution: Improved waste handling
surface and the aquifer, replenishing it through direct practices and fewer uses of harmful chemicals in
rainfall or surface water. agricultural and industrial processes can actually
Confined aquifers: Water is confined between minimize the risks of contamination.
impermeable layers of rock or clay, typically under Conservation practice: Drip irrigation, recycle
pressure, and can be recharged only at a limited water in
number of places. industries and public education on the need for
groundwater conserve it from more demand.
Water table: The top of the layer of groundwater in an
unconfined aquifer is known as the water table. Its TOPIC 8: URBAN WASTEWATER TREATMENT PROCESS
height fluctuates with the rate of withdrawal and
recharge of groundwater. Step 1: Sanitary Sewer
Storage capacity: Is a property that an aquifer has - is a system of underground pipes that carries
depending on the porosity, which is the amount of sewage from bathrooms, sinks, kitchens, and other
open space available within the material, and plumbing components to a wastewater treatment
permeability, or how easily water can actually flow plant where it is filtered, treated and discharged.
through the material.
Step 2: Grit Chamber
Overuse and Depletion of Groundwater - is a component of wastewater treatment plants
Over-extraction: It results in very rapid drawdown of designed to remove heavy particles and grit from
the water table; it becomes more difficult and sewage before it undergoes further treatment.
expensive to pump the water out.
Land subsidence: In some areas, over-pumping of Step 3: Primary Treatment
groundwater causes the ground to sink into itself; this - A broader process aimed at reducing suspended
leads to land subsidence, which damages buildings, solids and organic matter in wastewater through a
roads, and infrastructure. series of steps, including screening, grit removal,
Saltwater intrusion: In the coastal areas, over- and sedimentation.
extraction of groundwater results in an intrusion of
saltwater from the ocean into the freshwater aquifers,
Step 4: Aeration Tanks (Secondary Treatment)
which contaminates them.
- is the stage in wastewater treatment that follows
primary treatment, focusing on further reducing
Groundwater Contamination- occurs when harmful
organic matter and pollutants through biological
substances enter aquifers, making the water unsafe
processes.
for drinking and irrigation.

Agricultural runoff: These include fertilizers, Step 5: Tertiary Treatment
pesticides, and animal waste, which seep into the - includes nutrient removal and filtration.
ground and pollute water supplies. - aims to remove remaining contaminants, including
 nutrients (like nitrogen and phosphorus), pathogens,
and micro-pollutants.

Future trends in Urban Water Systems - evolving
practices, technologies, and policies aimed at
improving the management, distribution, and
conservation of water in urban areas. Key trends
include:

Smart Water Technology- These devices monitor
water usage in real-time and alert users to leaks,
promoting conservation. Example: Smart Water
Meters (e.g., Aquiba)

Decentralized water solutions -are local systems that
provide water supply, treatment, and management.
Instead of relying on large, centralized facilities,
these solutions work on a smaller scale.
Example: Community Rainwater Harvesting Systems,
Local systems that collect and use rainwater,
reducing demand on central water supplies.

Water Recycling and Reuse- treating wastewater so it
can be safely used again, rather than being
discharged into the environment. This practice helps
conserve fresh water and reduces the overall
demand on water supplies.