পরীক্ষা আর্কাইভ

৪৯তম বিসিএস ⎯ ফলিত রসায়ন [৫৪১]

পরীক্ষা৪৯তম বিসিএস ⎯ ফলিত রসায়ন [৫৪১]তারিখতারিখ অনির্ধারিতসময়26 minutes
মোট প্রশ্ন৫০
সিলেবাস
Exam - 08 Topics: Water conditioning and water treatment 1. Water conditioning and water treatment. 2. Physical and chemical methods of treatment. 3. Municipal water supply. 4. Boiler feed water. 5. Water treatment plants in Bangladesh. 6. Electrodialysis, ultrafiltration, activated carbon absorption, 7. BOD, COD. [Source: Class - 05 and Relevant Books]
ঘনত্ব
উত্তর
উত্তরিতবর্তমানপুনরায় দেখুনঅসম্পূর্ণ

৪৯তম বিসিএস ⎯ ফলিত রসায়ন [৫৪১]

৪৯তম বিসিএস ⎯ ফলিত রসায়ন [৫৪১] · তারিখ অনির্ধারিত · ৫০ প্রশ্ন

.
Which method of water softening involves replacing calcium and magnesium ions with sodium ions?
  1. Coagulation process
  2. Zeolite process
  3. Lime-soda process
  4. Electrodialysis
সঠিক উত্তর:
Zeolite process
উত্তর
সঠিক উত্তর:
Zeolite process
ব্যাখ্যা

Zeolite process (Ion-exchange method): In this method, zeolite (NaAlSiO₄·H₂O) is used, which replaces calcium (Ca²⁺) and magnesium (Mg²⁺) ions in hard water with sodium (Na⁺) ions, thus softening the water.

Coagulation process: Used to remove suspended impurities, not for softening water.

Lime-soda process: Removes calcium and magnesium by converting them into insoluble precipitates.

Electrodialysis: Removes ions using an electric field, usually applied in desalination.

 Therefore, the method of water softening that involves replacing calcium and magnesium ions with sodium ions is the Zeolite process

.
In the lime-soda process, why is soda ash (Na2CO3) specifically added?
  1. To precipitate non-carbonate hardness as CaCO3
  2. To increase pH and kill microorganisms
  3. To convert temporary hardness into permanent hardness
  4. To form soluble complexes with Ca2+ ions
সঠিক উত্তর:
To precipitate non-carbonate hardness as CaCO3
উত্তর
সঠিক উত্তর:
To precipitate non-carbonate hardness as CaCO3
ব্যাখ্যা

In the lime-soda process for water softening:
Lime (Ca(OH)2) removes temporary hardness (due to bicarbonates) by precipitating CaCO3 and Mg(OH)2.
Soda ash (Na2CO3) is added to remove non-carbonate hardness (caused by chlorides, sulfates, and nitrates of Ca2+ and Mg2+).
Reaction:
   CaCl2+Na2CO3⟶CaCO3↓+2NaCl
Here, Ca2+ (from CaCl2, CaSO4, etc.) reacts with carbonate ions to form insoluble CaCO3.

This reduces hardness that lime alone cannot remove.

.
Which of the following statements about reverse osmosis (RO) is TRUE?
  1. RO increases the salinity of water
  2. RO requires low pressure and low osmotic gradient
  3. RO is effective only for removing suspended solids, not dissolved salts
  4. RO removes dissolved salts by using semipermeable membranes
সঠিক উত্তর:
RO removes dissolved salts by using semipermeable membranes
উত্তর
সঠিক উত্তর:
RO removes dissolved salts by using semipermeable membranes
ব্যাখ্যা

Reverse Osmosis (RO) is a water purification method where pressure greater than the osmotic pressure is applied to force water through a semipermeable membrane, leaving dissolved salts and other impurities behind.
The membrane allows water molecules to pass but rejects most dissolved salts, organic matter, and microorganisms.

​Other options:
(ক) RO increases the salinity of water → Completely wrong; it reduces salinity.
(খ) RO requires low pressure and low osmotic gradient → Incorrect; RO requires high pressure to overcome natural osmotic pressure.
(গ) RO is effective only for removing suspended solids, not dissolved salts → False; its main advantage is removing dissolved salts, unlike normal filtration.

.
Why is sodium hexametaphosphate added during water conditioning in boilers?
  1. To increase water hardness for better heat transfer
  2. To prevent scale formation by forming soluble complexes
  3. To reduce dissolved oxygen and prevent corrosion
  4. To act as a coagulant for removing turbidity
সঠিক উত্তর:
To prevent scale formation by forming soluble complexes
উত্তর
সঠিক উত্তর:
To prevent scale formation by forming soluble complexes
ব্যাখ্যা

Sodium hexametaphosphate (SHMP) acts as a sequestering agent** in boiler water conditioning.

It combines with Ca²⁺ and Mg²⁺ ions (which cause hardness) to form soluble complexes, preventing the precipitation of CaCO₃, Mg(OH)₂, and other salts that cause scale formation.

This method is called phosphate conditioning, widely used for high-pressure boilers.

​** In chemistry, a sequestering agent is an organic compound capable of linking metal ions or molecules together to form complex ring-like structures known as chelates. Although similar, a sequestering agent is different than a chelating agent

.
Which parameter is least likely to be improved by activated carbon filtration?
  1. Taste and odor
  2. Residual chlorine
  3. Hardness
  4. Organic impurities
সঠিক উত্তর:
Hardness
উত্তর
সঠিক উত্তর:
Hardness
ব্যাখ্যা

Activated carbon filtration is highly effective in:
 1. Removing taste and odor (adsorbs organic compounds)
 2. Removing residual chlorine (through catalytic reduction)
 3.  Adsorbing organic impurities (pesticides, VOCs, etc.)
However, it does not remove hardness (Ca²⁺ and Mg²⁺ ions), because these are dissolved inorganic salts, which require processes like ion exchange, lime-soda softening, or RO.

​Other Options:
​(ক) Taste and odor → Removed effectively by adsorption.
(খ) Residual chlorine → Neutralized by catalytic action on carbon surface.
(ঘ) Organic impurities → Adsorbed strongly.

.
In sedimentation tanks, the efficiency of removing suspended solids mainly depends on:
  1. Depth of the tank
  2. Tank color and material
  3. Surface overflow rate
  4. Duration of sunlight exposure
সঠিক উত্তর:
Surface overflow rate
উত্তর
সঠিক উত্তর:
Surface overflow rate
ব্যাখ্যা

In sedimentation (clarification), efficiency of suspended solids removal primarily depends on the surface overflow rate (SOR), also called surface loading rate, which is:
SOR=Flow rate/Surface area of tank

According to Hazens’ theory, settling efficiency is controlled by the surface area, not the depth, because particles settle at a constant velocity, and any particle with a settling velocity greater than the overflow rate will settle out.

.
Which of the following chemical agents is commonly used for coagulation in water treatment?
  1. Sodium hypochlorite
  2. Alum (Al2(SO4)3)
  3. Activated carbon
  4. Sodium fluoride
সঠিক উত্তর:
Alum (Al2(SO4)3)
উত্তর
সঠিক উত্তর:
Alum (Al2(SO4)3)
ব্যাখ্যা

Coagulation is the process of neutralizing the electrical charges on colloidal particles (such as clay, silt, organic matter) in water so they can come together (flocculate) and settle out.
Colloids are negatively charged, so they repel each other and do not settle naturally.
When alum is added to water:
    1. It dissolves and hydrolyzes to form Al³⁺ ions.
    2. These ions neutralize the negative charges on colloids.
    3. Then, aluminum hydroxide [Al(OH)₃] precipitate forms, creating a gel-like floc that traps suspended and colloidal impurities.

Reactions involved:
Al2(SO4)3+6H2O⟶2Al(OH)3↓+3H2SO4

The floc formed settles down in the sedimentation tank.
Alum works best in slightly alkaline water (pH 6–8) because Al(OH)₃ formation is favored.

.
Which physical method is not commonly used for wastewater disinfection?
  1. UV radiation
  2. Gamma radiation
  3. Boiling
  4. Chlorination
সঠিক উত্তর:
Chlorination
উত্তর
সঠিক উত্তর:
Chlorination
ব্যাখ্যা

Wastewater disinfection methods can be broadly categorized as:
  1. Physical → Use physical agents like heat or radiation.
  2. Chemical → Use chemicals like chlorine, ozone.
Chlorination is a chemical method (it uses chlorine or chlorine compounds to kill pathogens), not a physical method.
Common physical disinfection methods:
  1. UV radiation → Damages microbial DNA, preventing reproduction.
  2. Gamma radiation → Ionizes cellular components, killing microbes.
  3. Boiling → Heat kills pathogens effectively.

.
In the context of adsorption for water treatment, activated carbon removes contaminants mainly by:
  1. Ion exchange
  2. Chemical oxidation
  3. Physical adsorption
  4. Electrochemical precipitation
সঠিক উত্তর:
Physical adsorption
উত্তর
সঠিক উত্তর:
Physical adsorption
ব্যাখ্যা

Activated carbon is a highly porous material with an enormous surface area (up to 1000 m²/g).
It removes contaminants by physical adsorption, which involves Van der Waals forces and sometimes minor chemisorption.
This makes it very effective for removing:
   Organic compounds (taste, odor, color)
    Volatile organic compounds (VOCs)
    Chlorine and some disinfection by-products
Its primary mechanism is not chemical reaction, but adsorption on a porous surface.

​(ক) Ion exchange → Performed by ion-exchange resins, not by activated carbon.
(খ) Chemical oxidation → Requires oxidizing agents like chlorine, ozone.
(ঘ) Electrochemical precipitation → Used in electrochemical treatment, not in activated carbon filtration.

১০.
Which factor increases the efficiency of chlorination in water treatment?
  1. Low turbidity and neutral pH
  2. Presence of ammonia
  3. High pH (>10)
  4. High temperature combined with high organic load
সঠিক উত্তর:
Low turbidity and neutral pH
উত্তর
সঠিক উত্তর:
Low turbidity and neutral pH
ব্যাখ্যা

Chlorination efficiency depends on:
     Turbidity: Lower turbidity improves efficiency because suspended solids shield microorganisms from chlorine.
      pH: Neutral pH (around 7) is ideal because HOCl (hypochlorous acid)—the most effective disinfecting species—is predominant at pH 6–7.
             At high pH (>8), HOCl converts to OCl⁻, which is less effective.
Contact time and temperature: Higher temperature generally helps, but if organic load is high, it consumes chlorine, reducing effectiveness.
The presence of ammonia forms chloramines, which are weaker disinfectants than free chlorine.

​(খ) Presence of ammonia → Leads to chloramine formation, reducing immediate disinfection efficiency.
(গ) High pH (>10) → Converts HOCl to OCl⁻, making chlorination less effective.
(ঘ) High temperature combined with high organic load → High organic matter consumes chlorine, leaving less free chlorine for disinfection.

১১.
In advanced oxidation processes (AOP) used for chemical treatment, which species plays the primary role in destroying organic pollutants? 
  1. Sulfate ion (SO42-)
  2. Ozone molecule (O3)
  3. Chloride ion (Cl-)
  4. Hydroxyl radical (-OH)
সঠিক উত্তর:
Hydroxyl radical (-OH)
উত্তর
সঠিক উত্তর:
Hydroxyl radical (-OH)
ব্যাখ্যা

Advanced Oxidation Processes (AOPs) are chemical water treatment methods designed to degrade persistent organic pollutants.
The key mechanism is the generation of highly reactive radicals, mainly the hydroxyl radical (-OH).
Hydroxyl radicals have:
  1. Extremely high oxidation potential (~2.8 V, higher than ozone or chlorine)
  2. Non-selective reactivity, meaning they can react with a wide range of organic compounds, breaking them down into CO2, water, and inorganic salts.

​Common AOPs include:
O3/H2O2
UV/H2O2
Fenton process (Fe2+/H2O2)

১২.
In a municipal water supply system, which part acts most like the “lungs” of the city?
  1. Service reservoirs
  2. Distribution mains
  3. Water treatment plant
  4. Intake structure
সঠিক উত্তর:
Service reservoirs
উত্তর
সঠিক উত্তর:
Service reservoirs
ব্যাখ্যা

In a municipal water supply system, service reservoirs are often called the “lungs of the city” because they store treated water and help regulate pressure and flow throughout the distribution network.
They serve several key purposes:
       1. Balancing supply and demand – they provide water during peak demand periods.
       2 . Pressure regulation – maintaining consistent pressure in the mains.
       3. Emergency storage – supplying water during outages or maintenance.
Analogy to lungs: Just as lungs store and release oxygen to maintain a steady supply for the body, service reservoirs store and release water to maintain a steady supply to the city.

​(খ) Distribution mains → These act like arteries, transporting water, not storing it.
(গ) Water treatment plant → Cleans water, like a filter, but doesn’t provide storage or buffering.
(ঘ) Intake structure → Only draws raw water from the source; does not regulate supply.

১৩.
Which parameter is most crucial to control before water enters the distribution system to avoid “red water” complaints from consumers? 
  1. Fluoride concentration
  2. Iron and manganese levels
  3. Dissolved oxygen
  4. Hardness (Ca2+ & Mg2+)
সঠিক উত্তর:
Iron and manganese levels
উত্তর
সঠিক উত্তর:
Iron and manganese levels
ব্যাখ্যা

“Red water” refers to reddish-brown water in the distribution system, usually caused by oxidized iron (Fe³⁺) or manganese (Mn⁴⁺) particles.
If iron or manganese concentrations in treated water are too high, they can precipitate in pipes, leading to:
   1. Staining of clothes and plumbing fixtures
   2. Bad taste and color complaints
   3. Potential microbial growth on pipe scales
Control before distribution:
Remove Fe and Mn through oxidation followed by filtration or water softening processes.
Maintaining low levels ensures water remains clear and aesthetically acceptable.

১৪.
Why are break-pressure tanks installed in long water transmission pipelines?
  1. To store water for emergencies
  2. To prevent freezing in cold climates
  3. To avoid excessive pressure and pipe bursts
  4. To increase water velocity
সঠিক উত্তর:
To avoid excessive pressure and pipe bursts
উত্তর
সঠিক উত্তর:
To avoid excessive pressure and pipe bursts
ব্যাখ্যা

Break-pressure tanks (BPTs) are intermediate storage tanks installed along long water transmission pipelines, especially in hilly or sloping terrains.
Purpose:
   When water flows down a slope, pressure increases due to gravity (hydrostatic head).
   Excessive pressure can damage pipes, joints, and valves, causing leaks or bursts.
   A break-pressure tank intercepts the flow, reduces the pressure, and then allows controlled flow downstream.

​They may also provide a small buffer storage, but the primary reason is pressure control.

​(ক) To store water for emergencies → Not the main purpose; reservoirs are used for emergency storage.
(খ) To prevent freezing in cold climates → Not applicable; freezing is managed by insulation or buried pipelines.
(ঘ) To increase water velocity → BPTs reduce, not increase, hydraulic pressure and velocity.

১৫.
If chlorine demand of a raw water sample is 2 mg/L, and we need a residual of 0.5 mg/L, how much chlorine should be applied? 
  1. 1.5 mg/L
  2. 2 mg/L
  3. 0.5 mg/L
  4. 2.5 mg/L
সঠিক উত্তর:
2.5 mg/L
উত্তর
সঠিক উত্তর:
2.5 mg/L
ব্যাখ্যা

Chlorine demand is the amount of chlorine consumed by reactions with impurities in water (organics, ammonia, iron, etc.).
Chlorine residual is the amount left in water after these reactions, which ensures disinfection.
Total chlorine to be applied:
    Chlorine applied=Chlorine demand+Desired residual

Given:
Chlorine demand = 2 mg/L
Desired residual = 0.5 mg/L
                 
Chlorine applied = 2+0.5 = 2.5 mg/L.

১৬.
In a city water supply network, the layout that looks like a spider’s web is known as:
  1. Ring system
  2. Radial system
  3. Grid iron system
  4. Dead-end system
সঠিক উত্তর:
Grid iron system
উত্তর
সঠিক উত্তর:
Grid iron system
ব্যাখ্যা

The grid iron system is a network layout where pipes are laid in a rectangular or square grid, resembling a spider’s web.
Advantages:
 Provides multiple pathways for water to reach consumers.
 Improves reliability—if one pipe fails, water can be rerouted.
 Maintains adequate pressure and flow across the network.

​Comparison with other systems:
Ring system (ক) → Loops around the city; mainly for long continuous supply along main roads.
Radial system (খ) → Pipes radiate from a central reservoir; may have pressure variation issues at the edges.
Dead-end system (ঘ) → Pipes terminate at endpoints; less reliable, prone to stagnation.

১৭.
Which of the following issues is most likely to occur if boiler feed water has high dissolved oxygen content?
  1. Scale formation
  2. Priming and foaming
  3. Caustic embrittlement
  4. Pitting corrosion
সঠিক উত্তর:
Pitting corrosion
উত্তর
সঠিক উত্তর:
Pitting corrosion
ব্যাখ্যা

Dissolved oxygen (DO) in boiler feed water is highly reactive with metal surfaces, especially iron and steel.
High DO leads to:
         Localized corrosion or pitting in boiler tubes and pipes.
        Pitting is dangerous because it creates small holes, which can cause leaks and failures under high pressure.

Prevention:
      Use deaerators to remove oxygen.
      Add oxygen scavengers like hydrazine (N₂H₄) or sodium sulfite (Na₂SO₃).

​ক) Scale formation → Caused by hardness (Ca²⁺, Mg²⁺), not oxygen.
(খ) Priming and foaming → Caused by suspended solids, high alkalinity, or sudden pressure changes, not DO.
(গ) Caustic embrittlement → Caused by high concentration of caustic (NaOH) in boiler, not oxygen.

১৮.
Why is phosphate treatment used in boiler feed water conditioning? 
  1. To remove dissolved gases
  2. To convert scale-forming salts into sludge
  3. To neutralize acidic gases like CO2
  4. To lower the pH of water
সঠিক উত্তর:
To convert scale-forming salts into sludge
উত্তর
সঠিক উত্তর:
To convert scale-forming salts into sludge
ব্যাখ্যা

Phosphate treatment is an internal boiler water conditioning method used to prevent scale formation.

​Mechanism:
Hardness in feed water (Ca²⁺, Mg²⁺) can form insoluble scale like CaCO₃ on boiler surfaces.
Sodium phosphate (Na₃PO₄) reacts with Ca²⁺ and Mg²⁺ to form soft, non-adherent sludge:
 3Ca2++2PO43−⟶Ca3(PO4)2
This sludge can be blown down from the boiler, preventing hard scale deposition.

​Advantages:

      Protects boiler tubes from scaling and overheating.
     Compatible with high-pressure boilers.

১৯.
In high-pressure boilers, the use of sodium sulfite in feed water helps in:
  1. Preventing foaming
  2. Removing hardness
  3. Scavenging oxygen
  4. Reducing silica content
সঠিক উত্তর:
Scavenging oxygen
উত্তর
সঠিক উত্তর:
Scavenging oxygen
ব্যাখ্যা

High-pressure boilers are highly sensitive to oxygen corrosion, which can cause pitting and tube failure.
Sodium sulfite (Na₂SO₃) is commonly added to boiler feed water as an oxygen scavenger:

2Na2SO3+ O2⟶ 2Na2SO4
 
​Benefits:
     Converts dissolved oxygen into a harmless compound (sodium sulfate).
     Protects boiler tubes and pipes from localized corrosion.

​(ক) Preventing foaming → Done by anti-foaming agents, not sodium sulfite.
(খ) Removing hardness → Done by lime, soda, or phosphate treatment, not oxygen scavengers.
(ঘ) Reducing silica content → Silica removal requires deionization or reverse osmosis, not sodium sulfite.

২০.
What is the ideal pH range for boiler feed water in high-pressure boilers?
  1. 4.5 – 6.0
  2. 6.5 – 7.5
  3. 8.5 – 9.5
  4. 10.5 – 12.0
সঠিক উত্তর:
8.5 – 9.5
উত্তর
সঠিক উত্তর:
8.5 – 9.5
ব্যাখ্যা

High-pressure boilers are more susceptible to corrosion, particularly oxygen corrosion and caustic attack.
 
​Maintaining an alkaline pH in feed water (typically 10.5–12.0) helps to:
  Prevent acidic corrosion caused by dissolved CO₂ or oxygen.
  Reduce metal leaching from boiler tubes.
  Ensure effective operation of phosphate and oxygen scavenger treatments.

​Methods to maintain pH:

Addition of sodium hydroxide (NaOH) or sodium phosphate.

​(ক) 4.5 – 6.0 → Acidic range; would increase corrosion risk.
(খ) 6.5 – 7.5 → Neutral range; not sufficient for high-pressure boilers.
(গ) 8.5 – 9.5 → Mildly alkaline; better than neutral, but still lower than recommended for high-pressure systems.

২১.
If the feed water contains high silica content, what is the major operational risk in the boiler?
  1. Increased blowdown frequency
  2. Turbine blade deposition
  3. Foaming and carryover
  4. Tube pitting
সঠিক উত্তর:
Turbine blade deposition
উত্তর
সঠিক উত্তর:
Turbine blade deposition
ব্যাখ্যা

Silica (SiO₂) is highly soluble in boiler water at high temperatures and pressures.
When water steam-flashes into high-pressure steam, silica precipitates out, especially in turbine blades and steam lines, forming a hard, glassy deposit.

​Consequences:
Reduced turbine efficiency
Imbalance and vibration
Increased maintenance costs

​Control measures:
     Use deionization, reverse osmosis, or silica removal softeners for feed water.
    Limit silica concentration according to boiler pressure (e.g., <10 ppb for supercritical turbines).

২২.
Which factor most influences the selection of water treatment technology in rural Bangladesh?
  1. Availability of river water
  2. Presence of iron and arsenic in groundwater
  3. Proximity to urban centers
  4. Average annual rainfall
সঠিক উত্তর:
Presence of iron and arsenic in groundwater
উত্তর
সঠিক উত্তর:
Presence of iron and arsenic in groundwater
ব্যাখ্যা

In rural Bangladesh, the primary concern in groundwater is the high concentration of iron and arsenic in tube wells.
 
​These contaminants pose severe health risks:
     Iron: causes taste, staining, and clogging problems.
    Arsenic: chronic exposure leads to skin lesions, cancers, and organ damage.

Water treatment technology is therefore selected based on:
     Removal of arsenic (e.g., coagulation-filtration, adsorption, or adsorption media)
     Iron removal (e.g., oxidation followed by filtration)

২৩.
Why do many municipal water treatment plants in Bangladesh still prefer slow sand filtration despite the availability of advanced technologies? 
  1. It requires minimal skilled labor and low maintenance cost
  2. It provides the fastest water purification rate
  3. It is the only method approved by WHO
  4. It removes fluoride and arsenic effectively
সঠিক উত্তর:
It requires minimal skilled labor and low maintenance cost
উত্তর
সঠিক উত্তর:
It requires minimal skilled labor and low maintenance cost
ব্যাখ্যা

Slow sand filtration (SSF) is a biologically active filtration process widely used in rural and municipal water supply in Bangladesh.

Reasons for continued preference despite advanced technologies:
Low operational cost: Does not require chemicals or high energy input.
Simple technology: Can be operated and maintained by minimally trained personnel.
Effective pathogen removal: Through biological action and physical straining.
Sustainability: Suitable for small and medium-sized communities.

Limitations:
     Low filtration rate (slow flow)
     Less effective for removing dissolved chemicals like arsenic or fluoride (requires additional treatment)

২৪.
Which of the following is a major challenge faced by water treatment plants using surface water in Bangladesh during the monsoon season? 
  1. Reduced raw water availability
  2. Freezing of intake channels
  3. Sudden arsenic spikes in surface water
  4. Excessive silt and turbidity in intake water
সঠিক উত্তর:
Excessive silt and turbidity in intake water
উত্তর
সঠিক উত্তর:
Excessive silt and turbidity in intake water
ব্যাখ্যা

Monsoon impact on surface water:
During the monsoon season in Bangladesh, heavy rainfall and flooding cause rivers, canals, and ponds to carry a large load of suspended solids, including silt, clay, and organic debris.
This leads to high turbidity and sometimes coloration in raw water, which can dramatically exceed normal treatment capacities.

Challenges for water treatment plants:
1. Coagulation and sedimentation:
   High turbidity requires higher doses of coagulants (like alum or ferric salts) to form flocs that settle efficiently.

2. ​Filtration:
   Slow sand or rapid sand filters face faster clogging, requiring more frequent backwashing, which increases operational workload.

3. Disinfection efficiency:
   Suspended solids can shield microorganisms from disinfectants like chlorine, reducing pathogen removal efficiency.

4. Operational stress:
   Treatment plants may need to adjust flow rates and chemical dosages frequently to maintain safe water quality.

২৫.
In an electrodialysis unit used for desalination, which factor primarily determines the selectivity of ion migration through ion-exchange membranes? 
  1. Electrical conductivity of water
  2. Temperature of feed solution
  3. Fixed charged groups present on the membrane
  4. Applied hydraulic pressure
সঠিক উত্তর:
Fixed charged groups present on the membrane
উত্তর
সঠিক উত্তর:
Fixed charged groups present on the membrane
ব্যাখ্যা

Electrodialysis (ED) is a membrane-based desalination process used to remove salts from water by applying an electric potential difference across the solution. The process uses alternating cation-exchange membranes (CEMs) and anion-exchange membranes (AEMs) arranged between electrodes.

1. Cation-exchange membranes (CEMs):
Contain fixed negative charges (usually sulfonic acid groups).
Attract and allow positively charged ions (cations like Na⁺, K⁺, Ca²⁺) to pass through, while repelling anions.

2. Anion-exchange membranes (AEMs):
Contain fixed positive charges (usually quaternary ammonium groups).
Attract and allow negatively charged ions (anions like Cl⁻, SO₄²⁻) to pass through, while repelling cations.

Mechanism of selectivity:
When an electric potential is applied, cations move toward the cathode, anions toward the anode.
Only ions of the opposite charge to the fixed groups on the membrane can pass through.
This charge-based selectivity ensures that ions migrate in the desired direction, leaving desalinated water in the diluate compartments.

২৬.
Which phenomenon primarily limits the performance of ultrafiltration membranes in long-term operation?
  1. Concentration polarization and fouling
  2. Osmotic pressure difference
  3. Electrochemical degradation
  4. Ion migration resistance
সঠিক উত্তর:
Concentration polarization and fouling
উত্তর
সঠিক উত্তর:
Concentration polarization and fouling
ব্যাখ্যা

Ultrafiltration (UF) membranes are widely used for removing suspended solids, colloids, bacteria, and macromolecules from water.
Long-term performance limitations are mainly due to:

1. Concentration polarization:
Solutes or particles accumulate near the membrane surface because water passes through the membrane faster than solutes.
This creates a higher local solute concentration, reducing permeate flux.

2. Fouling:
Deposition of organic matter, biofilms, colloids, or inorganic salts on the membrane surface or within pores.
Fouling leads to:
      Reduced permeate flow rate
      Increased transmembrane pressure (TMP)
     Shortened membrane lifespan

Mitigation strategies:
Periodic backwashing and chemical cleaning
Pretreatment of feed water (coagulation, sedimentation)
Optimizing crossflow velocity to reduce concentration polarization

২৭.
Why is powdered activated carbon (PAC) often preferred over granular activated carbon (GAC) for removing micropollutants from water in batch processes?
  1. PAC has a higher particle density
  2. PAC provides faster adsorption kinetics due to larger surface area
  3. PAC is less expensive to regenerate than GAC
  4. PAC does not require mixing or agitation
সঠিক উত্তর:
PAC provides faster adsorption kinetics due to larger surface area
উত্তর
সঠিক উত্তর:
PAC provides faster adsorption kinetics due to larger surface area
ব্যাখ্যা

Activated carbon is used in water treatment to remove organic micropollutants, taste, odor, and color.

Powdered Activated Carbon (PAC):
    1. Particle size: Very fine powder (typically < 100 µm)
    2. Surface area exposure: Large external surface area relative to particle volume
    3. Kinetics: Adsorption occurs faster because pollutants can quickly access adsorption sites.

Granular Activated Carbon (GAC):
    1. Larger particle size (0.2–5 mm)
    2. Adsorption is slower, mainly used in fixed-bed continuous systems.

Application:
PAC is added directly to water in batch processes or in coagulation tanks for rapid removal of trace organics.
After treatment, PAC is removed by sedimentation or filtration.

২৮.
In a hybrid water treatment system combining ultrafiltration and activated carbon adsorption, what is the main reason ultrafiltration is placed before activated carbon?
  1. To reduce fouling of the UF membrane by adsorbed organics
  2. To remove suspended solids and colloids, improving carbon life
  3. To increase the electrical conductivity for carbon adsorption
  4. To reduce water hardness before adsorption
সঠিক উত্তর:
To remove suspended solids and colloids, improving carbon life
উত্তর
সঠিক উত্তর:
To remove suspended solids and colloids, improving carbon life
ব্যাখ্যা

Hybrid systems combining ultrafiltration (UF) and activated carbon (AC) are used to achieve high-quality water by removing both particulates and dissolved organics.

Why UF is placed first:
1. Suspended solids and colloids removal: UF membranes effectively remove turbidity, bacteria, and colloidal particles.
2. Protects the activated carbon:
      Prevents rapid fouling or clogging of the AC bed.
      Extends the adsorption efficiency and lifespan of activated carbon.
3. Improved water clarity: Ensures that the AC bed primarily deals with dissolved organics, which are its main target.

Sequence benefit: UF → AC ensures stable operation, lower maintenance, and optimal contaminant removal.

২৯.
Which of the following statements correctly differentiates BOD and COD?
  1. BOD is always higher than COD because microbes consume all organic matter
  2. COD is measured over 5 days, while BOD is measured within a few hours
  3. COD measures both biodegradable and non-biodegradable matter, while BOD measures only biodegradable matter
  4. BOD test uses strong oxidizing chemicals, while COD test uses microorganisms
সঠিক উত্তর:
COD measures both biodegradable and non-biodegradable matter, while BOD measures only biodegradable matter
উত্তর
সঠিক উত্তর:
COD measures both biodegradable and non-biodegradable matter, while BOD measures only biodegradable matter
ব্যাখ্যা

BOD (Biochemical Oxygen Demand):
Measures the amount of dissolved oxygen required by microorganisms to biologically oxidize the organic matter in water over a period (commonly 5 days at 20°C, called BOD₅).
Only accounts for biodegradable organic matter.

COD (Chemical Oxygen Demand):
Measures the total oxygen equivalent of all organics in water that can be chemically oxidized using strong oxidants (like potassium dichromate in acidic conditions).
Includes both biodegradable and non-biodegradable organics.
Gives faster results (a few hours) compared to the 5-day BOD test.

৩০.
If the BOD of a wastewater sample is much lower than its COD, what does this indicate?
  1. Wastewater is highly biodegradable
  2. Wastewater contains significant non-biodegradable organic matter
  3. The BOD test was done incorrectly
  4. The water sample contains only inorganic matter
সঠিক উত্তর:
Wastewater contains significant non-biodegradable organic matter
উত্তর
সঠিক উত্তর:
Wastewater contains significant non-biodegradable organic matter
ব্যাখ্যা

BOD (Biochemical Oxygen Demand) measures the oxygen required by microorganisms to oxidize biodegradable organics over 5 days.

​COD (Chemical Oxygen Demand) measures the oxygen required to chemically oxidize all oxidizable organics, including both biodegradable and non-biodegradable compounds.

​Interpretation of BOD ≪ COD:
A large gap between COD and BOD indicates that a significant portion of the organic matter in wastewater is non-biodegradable.
Microorganisms cannot break down these compounds easily, so BOD is low, while COD still reflects total oxidizable content.

​Implications:
Treatment may require advanced chemical or physicochemical methods instead of relying solely on biological treatment.

৩১.
Which method is most commonly used for measuring Chemical Oxygen Demand (COD) in water samples?
  1. Winkler’s method
  2. Open reflux method using potassium dichromate
  3. Gravimetric method
  4. Flame photometry
সঠিক উত্তর:
Open reflux method using potassium dichromate
উত্তর
সঠিক উত্তর:
Open reflux method using potassium dichromate
ব্যাখ্যা

COD is determined by oxidizing organic matter chemically using a strong oxidizing agent.

The most widely used method is the open reflux method, where potassium dichromate (K₂Cr₂O₇) in acidic medium (with sulfuric acid and silver sulfate as a catalyst) oxidizes the organic matter.

The amount of dichromate consumed is measured by titration with ferrous ammonium sulfate (FAS), which indicates the oxygen equivalent of the organic matter.

৩২.
In the lime-soda process, what is the primary purpose of adding soda ash (Na2CO3)? 
  1. To remove dissolved oxygen
  2. To convert soluble calcium salts into insoluble carbonate
  3. To precipitate magnesium as hydroxide
  4. To disinfect the water
সঠিক উত্তর:
To convert soluble calcium salts into insoluble carbonate
উত্তর
সঠিক উত্তর:
To convert soluble calcium salts into insoluble carbonate
ব্যাখ্যা

The lime-soda process is a chemical water softening method.
Soda ash (Na₂CO₃) is added to react with soluble calcium salts (like CaSO4 or Ca(HCO3)2) to form insoluble calcium carbonate (CaCO3), which can then be removed by sedimentation or filtration:
Ca2++Na2CO3→CaCO3↓+2Na+
Lime (Ca(OH)₂) is used mainly to remove magnesium as magnesium hydroxide (Mg(OH)2).

Other options:
(ক)Remove dissolved oxygen: Not the purpose of soda ash.
​(গ)Precipitate magnesium: Done by lime, not soda ash.
(ঘ)Disinfect water: Requires chlorine or similar disinfectants, not soda ash.

৩৩.
Why is sodium hexametaphosphate added in boiler water treatment? 
  1. To increase alkalinity
  2. To reduce dissolved oxygen
  3. To form soluble complexes with calcium and magnesium
  4. To control pH
সঠিক উত্তর:
To form soluble complexes with calcium and magnesium
উত্তর
সঠিক উত্তর:
To form soluble complexes with calcium and magnesium
ব্যাখ্যা

Sodium hexametaphosphate (SHMP) is a sequestering agent used in boiler water treatment.
Function:
 1,It reacts with calcium (Ca²⁺) and magnesium (Mg²⁺) ions in the water to form soluble complexes.
 2,This prevents the formation of scale deposits on boiler surfaces, which can reduce heat transfer efficiency and cause corrosion.

Other options:
​(ক)Increase alkalinity: Achieved by adding sodium carbonate or hydroxide, not SHMP.
(খ)Reduce dissolved oxygen : Done by de-aerators or oxygen scavengers like sodium sulfite.
(ঘ)Control pH : pH adjustments are done separately using alkalis or acids.

৩৪.
Which of the following issues is most likely to occur if boiler feed water contains high dissolved oxygen? 
  1. Priming
  2. Foaming
  3. Hard scale formation
  4. Corrosion of boiler metal surfaces
সঠিক উত্তর:
Corrosion of boiler metal surfaces
উত্তর
সঠিক উত্তর:
Corrosion of boiler metal surfaces
ব্যাখ্যা

High dissolved oxygen in boiler feed water is highly corrosive to metals (iron, steel) because oxygen reacts with iron to form rust (Fe₂O₃·xH₂O):
4Fe+3O2+6H2O→4Fe(OH)3 (which dehydrates to rust) 
This type of corrosion is called oxygen pitting, which creates deep pits and weakens the boiler walls.

Other options:
(ক) Priming : Caused by sudden boiling and entrainment of water droplets with steam, not oxygen.
(খ) Foaming: Due to oils, alkalinity, or dissolved solids—not oxygen.
​(গ) Hard scale formation : Caused by hardness salts (Ca²⁺, Mg²⁺), not oxygen.

৩৫.
Which parameter is least improved by activated carbon filtration? 
  1. Color
  2. Taste
  3. Odor
  4. Dissolved minerals like Ca2+ and Mg2+
সঠিক উত্তর:
Dissolved minerals like Ca2+ and Mg2+
উত্তর
সঠিক উত্তর:
Dissolved minerals like Ca2+ and Mg2+
ব্যাখ্যা

Activated carbon filtration works mainly through adsorption and is excellent at improving:
1.Color (removes organic matter causing discoloration)
2.Taste (removes chlorine and organics)
3.Odor (removes smell from organics, chlorine, sulfur compounds)

However, it does not remove hardness ions like Ca²⁺ and Mg²⁺ because these are dissolved inorganic salts, which require ion exchange (softening) or reverse osmosis to be removed.

৩৬.
In sedimentation tanks, removal efficiency of suspended solids depends mainly on: 
  1. Water temperature
  2. Shape of tank
  3. Type of coagulant
  4. Settling velocity of particles
সঠিক উত্তর:
Settling velocity of particles
উত্তর
সঠিক উত্তর:
Settling velocity of particles
ব্যাখ্যা

1.The efficiency of sedimentation tanks is governed by Stokes' Law, which relates settling velocity to particle size, density difference, and water viscosity.
2.Settling velocity determines whether particles will settle before water exits the tank.
3.Other factors like temperature, tank shape, and coagulant type influence performance, but the primary determinant is settling velocity

​Other Options:
​(ক)Water temperature: It affects water viscosity slightly, influencing settling, but not as significantly as settling velocity itself.
(খ)Shape of tank : Helps in proper flow distribution and reducing short-circuiting but does not change the inherent ability of particles to settle.
(গ)Type of coagulant : Coagulants improve floc size and density (thus indirectly affecting settling velocity), but the key parameter remains the velocity of the particles formed.ant type influence performance, but the primary determinant is settling velocity.

৩৭.
Which chemical agent is most commonly used for coagulation in water treatment? 
  1. Ferric chloride
  2. Sodium chloride 
  3. Bleaching powder
  4. Alum
সঠিক উত্তর:
Alum
উত্তর
সঠিক উত্তর:
Alum
ব্যাখ্যা

Full name: Aluminum sulfate  (Al2(SO4)3⋅18H2O)
Role: Neutralizes negative charges on colloidal particles so they can clump (flocculate) and settle.
Most widely used: Because it is cheap, effective, and works for a wide pH range (typically 5.5–7.5).
​ Reaction:
                  Al2(SO4)3 + 6H2O → 2Al(OH)3↓ + 3H2SO4
Al(OH)₃ → gelatinous floc that traps impurities.
H₂SO₄ → lowers pH slightly, often corrected by lime addition.

​Other Options:
(ক)​ Ferric chloride : Effective coagulant but less commonly used in drinking water than alum (used more in industrial wastewater).
(খ) Sodium chloride : Just table salt—does not coagulate particles.
(গ) Bleaching powder: A disinfectant (chlorine source), not a coagulant.

৩৮.
Which physical method is not commonly used for wastewater disinfection? 
  1. Boiling
  2. Chlorination
  3. Reverse osmosis
  4. UV radiation
সঠিক উত্তর:
Reverse osmosis
উত্তর
সঠিক উত্তর:
Reverse osmosis
ব্যাখ্যা

1.Disinfection in wastewater treatment aims to kill or inactivate pathogenic microorganisms. Physical methods mainly include heat (boiling) and UV radiation because they directly destroy microorganisms or their DNA.
2.Reverse osmosis is primarily a filtration process for removing dissolved salts, organic molecules, and some microbes, but it is not considered a standard disinfection method because its goal is separation, not pathogen inactivation.
3.Other options like boiling and UV radiation are widely recognized as physical disinfection methods. Chlorination, though listed, is a chemical method but still widely used for disinfection.

Other Options :
(ক) Boiling:Physical method; kills microorganisms by heat → commonly used for small-scale disinfection (household level).
(খ) Chlorination:Chemical method; uses chlorine to kill microbes → widely used, but not a physical method. Still effective for disinfection.
(ঘ) UV radiation:Physical method; damages microbial DNA and prevents replication → commonly used in water and wastewater plants.

৩৯.
Activated carbon removes organic contaminants mainly by: 
  1. Ion exchange
  2. Chemical precipitation
  3. Adsorption due to large surface area
  4. Electrolysis
সঠিক উত্তর:
Adsorption due to large surface area
উত্তর
সঠিক উত্তর:
Adsorption due to large surface area
ব্যাখ্যা

1. Activated carbon is a highly porous material with a huge internal surface area (500–1500 m²/g), which allows it to adsorb organic molecules and certain chemicals from water.
2. The primary mechanism is physical adsorption, where organic contaminants adhere to the carbon surface through van der Waals forces or hydrophobic interactions.
3. This process is highly effective for removing color, odor, taste, and trace organic pollutants like pesticides and VOCs.

Other Options:
(ক) Ion exchange: Ion exchange resins remove charged ions (like hardness-causing Ca²⁺ and Mg²⁺), not organics.
(খ) Chemical precipitation: Used for removing dissolved metals or phosphates by forming insoluble compounds, not organics.
(ঘ) Electrolysis: Breaks down substances using electric current, not the mechanism in activated carbon filtration.

৪০.
Which factor increases the efficiency of chlorination in water treatment?
  1. High organic content
  2. Presence of ammonia
  3. Low turbidity
  4. High pH (>9)
সঠিক উত্তর:
Low turbidity
উত্তর
সঠিক উত্তর:
Low turbidity
ব্যাখ্যা

1.Chlorination efficiency depends on how well chlorine can contact and inactivate pathogens in water.
2.Low turbidity means fewer suspended particles that could shield microorganisms from chlorine. This ensures maximum exposure of pathogens to chlorine, improving disinfection.
3.High organic content, ammonia, or high pH can consume chlorine or reduce its effectiveness:
Organic matter → reacts with chlorine, forming chlorine demand.
Ammonia → forms chloramines, which are weaker disinfectants.
High pH (>9) → reduces the fraction of active hypochlorous acid (HOCl), decreasing disinfection efficiency.

Other Options :
(ক) High organic content: Consumes chlorine and reduces disinfection efficiency.
(খ) Presence of ammonia: Forms chloramines; slower and less effective than free chlorine.
(ঘ) High pH (>9): Reduces the amount of HOCl, the most effective disinfectant form of chlorine.

৪১.
In Advanced Oxidation Processes (AOP), which oxidant is most commonly used to generate hydroxyl radicals for pollutant degradation?
  1. Ozone (O3)
  2. Chlorine (Cl2)
  3. Sodium hypochlorite (NaOCl)
  4. Hydrogen peroxide (H2O2)
সঠিক উত্তর:
Hydrogen peroxide (H2O2)
উত্তর
সঠিক উত্তর:
Hydrogen peroxide (H2O2)
ব্যাখ্যা

Advanced Oxidation Processes (AOP) aim to produce hydroxyl radicals (•OH), which are extremely powerful oxidants that attack and degrade organic pollutants.

Hydrogen peroxide (H₂O₂) is widely used because it can decompose under UV light or react with catalysts (e.g., Fe²⁺ in the Fenton process) to form hydroxyl radicals.

Other options like ozone or chlorine can oxidize pollutants but are less efficient in generating •OH radicals compared to H₂O₂-based systems.

So, H₂O₂ is the primary oxidant used to generate hydroxyl radicals in AOPs.

৪২.
A water sample has chlorine demand of 1.6 mg/L. You want a free chlorine residual of 0.4 mg/L after 30 minutes. What initial chlorine dose should you apply? 
  1. 1.6 mg/L
  2. 1.8 mg/L
  3. 2.0 mg/L
  4. 2.2 mg/L
সঠিক উত্তর:
2.0 mg/L
উত্তর
সঠিক উত্তর:
2.0 mg/L
ব্যাখ্যা

1.Chlorine demand is the amount of chlorine consumed by reactions with impurities in water before a residual remains.
​2.Initial chlorine dose formula:
 Initial dose=Chlorine demand+Desired free chlorine residual
            
3.Substituting the values:
 Initial dose=1.6 mg/L+0.4 mg/L=2.0 mg/

Other Options Analysis:
(ক) 1.6 mg/L: Only meets the chlorine demand; no residual will remain.
(খ) 1.8 mg/L: Partial residual; free chlorine < 0.4 mg/L.
(ঘ) 2.2 mg/L: Slightly more than needed; free chlorine residual would exceed target.

৪৩.
Why is phosphate treatment applied in boiler feed water?
  1. To precipitate hardness-forming ions as soft sludge
  2. To control corrosion
  3. To neutralize silica
  4. To prevent foaming
সঠিক উত্তর:
To precipitate hardness-forming ions as soft sludge
উত্তর
সঠিক উত্তর:
To precipitate hardness-forming ions as soft sludge
ব্যাখ্যা

Phosphate treatment in boiler feed water is primarily used to prevent scale formation caused by hardness ions like calcium (Ca²⁺) and magnesium (Mg²⁺). The phosphate reacts with these ions to form soft sludge (mainly calcium phosphate), which can be easily removed, rather than forming hard scale on boiler tubes.

​Other Options:
খ) To control corrosion – This is mainly done by adding oxygen scavengers like sodium sulfite or neutralizing amines, not phosphates.
গ) To neutralize silica – Silica removal is handled by other methods, such as adding sodium hydroxide or using demineralization.
ঘ) To prevent foaming – Antifoaming agents or proper blowdown control are used for this purpose, not phosphate.

৪৪.
What is the primary risk of boiler feed water being too acidic (low pH)?
  1. Scaling and deposit formation
  2. Rapid corrosion of steel components
  3. Foaming and carryover
  4. Reduced steam temperature
সঠিক উত্তর:
Rapid corrosion of steel components
উত্তর
সঠিক উত্তর:
Rapid corrosion of steel components
ব্যাখ্যা

Low pH (acidic) water directly attacks and dissolves the protective iron oxide layer on the inside of the boiler and feedwater pipes. This exposes the raw steel to further corrosion, leading to rapid thinning, pitting, and ultimately, equipment failure. The other options are consequences of different issues:

a) Scaling is caused by hardness minerals (calcium, magnesium) and is a problem of high pH, not low pH.
c) Foaming is caused by high dissolved solids or contaminants, not directly by low pH.
d) Steam temperature is primarily a function of boiler pressure, not feedwater pH.

৪৫.
If the feed water has high silica content, what is the main operational risk in the boiler? 
  1. Scale formation on tubes
  2. Increased oxygen corrosion
  3. Foaming and priming
  4. Reduced alkalinity
সঠিক উত্তর:
Foaming and priming
উত্তর
সঠিক উত্তর:
Foaming and priming
ব্যাখ্যা

High silica content in boiler feed water can cause foaming and priming:
Foaming: Formation of bubbles on the water surface inside the boiler due to dissolved silica and other impurities.
Priming: Carryover of water along with steam, which can damage turbines and steam-using equipment.

Other options:
ক) Scale formation on tubes – Mostly caused by hardness (Ca²⁺, Mg²⁺), not silica.
খ) Increased oxygen corrosion – Caused by dissolved oxygen, not silica.
ঘ) Reduced alkalinity – Alkalinity is controlled chemically, silica doesn’t directly reduce it.

৪৬.
In electrodialysis, the selectivity of ion migration through membranes depends primarily on:
  1. Ion charge and size
  2. Membrane pore size
  3. Operating pressure
  4. Flow velocity
সঠিক উত্তর:
Ion charge and size
উত্তর
সঠিক উত্তর:
Ion charge and size
ব্যাখ্যা

In electrodialysis, ions migrate through ion-exchange membranes under the influence of an electric field. The selectivity of this migration depends mainly on:
1.Ion charge: Higher charged ions (e.g., divalent Ca²⁺) migrate differently than monovalent ions (e.g., Na⁺).
2.Ion size: Smaller ions pass through membranes more easily than larger ions.

Other Options:
খ)Membrane pore size – Not the primary factor; electrodialysis relies on ion-exchange properties, not physical sieving.
গ)Operating pressure – Not significant; pressure-driven processes are for reverse osmosis, not electrodialysis.
ঘ)Flow velocity – Affects mass transfer rate but not inherent selectivity.

৪৭.
Which phenomenon limits long-term performance of ultrafiltration membranes? 
  1.  Scaling
  2. Biofouling
  3. High pressure drop
  4. Osmotic backflow
সঠিক উত্তর:
Biofouling
উত্তর
সঠিক উত্তর:
Biofouling
ব্যাখ্যা

Ultrafiltration (UF) membranes are prone to biofouling, which is the accumulation of microorganisms, bacteria, and their extracellular products on the membrane surface. This limits long-term performance by:
    1.Reducing permeate flow.
    2.Increasing transmembrane pressure.
    3.Shortening membrane lifespan.

Other options:
ক) Scaling – Mainly caused by precipitation of hardness salts; important but usually controlled by pre-treatment.
গ) High pressure drop – A consequence, not the primary cause.
ঘ) Osmotic backflow – Not relevant for ultrafiltration; more a concern in reverse osmosis.

৪৮.
Which of the following is the primary function of activated carbon in water treatment plants?
  1. To reduce water hardness
  2. To remove organic compounds and bad taste/odor
  3. To disinfect water by killing pathogens
  4. To precipitate dissolved salts
সঠিক উত্তর:
To remove organic compounds and bad taste/odor
উত্তর
সঠিক উত্তর:
To remove organic compounds and bad taste/odor
ব্যাখ্যা

Activated carbon is a highly porous material with a large surface area, making it very effective for adsorption of dissolved organic compounds, chlorine, and substances that cause bad taste and odor in water. It does not:

Reduce hardness (that requires lime-soda or ion exchange)

Kill pathogens (that’s the role of disinfectants like chlorine or ozone)

Precipitate salts (done by chemical softening or reverse osmosis)

৪৯.
In a hybrid system combining ultrafiltration and activated carbon adsorption, why is ultrafiltration placed before activated carbon? 
  1. To disinfect water first
  2. To lower pH for better adsorption
  3. To remove turbidity and suspended solids, preventing clogging of carbon
  4. To reduce organic content
সঠিক উত্তর:
To remove turbidity and suspended solids, preventing clogging of carbon
উত্তর
সঠিক উত্তর:
To remove turbidity and suspended solids, preventing clogging of carbon
ব্যাখ্যা

In a hybrid ultrafiltration (UF) + activated carbon (AC) system:
1.Ultrafiltration acts as a pre-treatment step, removing suspended solids, colloids, and turbidity.
2.This prevents clogging or fouling of the downstream activated carbon bed, ensuring effective adsorption of organic contaminants.

Other options:
ক) To disinfect water first – UF may remove some microorganisms, but disinfection is not the main reason.
খ) To lower pH for better adsorption – pH adjustment is independent of UF placement.
ঘ) To reduce organic content – AC primarily removes organics; UF mainly removes particulates.

৫০.
If the BOD of a wastewater sample is much lower than its COD, this indicates: 
  1. Water is rich in biodegradable organics
  2. Most organic matter is non-biodegradable
  3. Presence of high dissolved oxygen
  4. The sample is well aerated
সঠিক উত্তর:
Most organic matter is non-biodegradable
উত্তর
সঠিক উত্তর:
Most organic matter is non-biodegradable
ব্যাখ্যা

1.BOD (Biochemical Oxygen Demand) measures the amount of oxygen required by microorganisms to degrade biodegradable organics.
2.COD (Chemical Oxygen Demand) measures the total oxygen required to chemically oxidize all organic matter, including both biodegradable and non-biodegradable fractions.
If BOD ≪ COD, it means:
    1.Most of the organic matter cannot be biologically degraded (non-biodegradable or slowly degradable).
    2.Only a small fraction contributes to microbial oxygen demand.

Other options:
ক) Water is rich in biodegradable organics – This would make BOD close to COD.
গ) Presence of high dissolved oxygen – Does not affect the BOD/COD ratio directly.
ঘ) The sample is well aerated – Aeration affects dissolved oxygen but not the intrinsic biodegradability ratio.