Sir, how to ascertain MLSS or MLVSS if we just know sludge settling ml/ltr? e.g. if Sludge Settling is 30% i.e. 300 ml/1000 ml how much will be MLSS/MLVSS mg/ltr. As it is very essential in case we don't have lab facility on site or plant. Made seperate vedio on this.
These values are somewhat related but not directly linked. MLSS is a measure of the amount of solids in the tank. The SV30 is a measure of the volume to which those particular solids will settle in 30 mins. If you were able to maintain a fairly constant MLSS value over a long period of time, the SV30 value would tell you if settle-ability was improving or worsening.
Sir aeration tank me foming bahut aa raha hai mlss - 600 ml/L hai aur ph - 7.50 hai fir bhi foming aa raha hai clerifire ka water bhi yellow colour ka ho gaya hai sir koi solution btayiye
To determine the appropriate capacity of a clarifier for an anaerobic digester with a capacity of 800KLD (kiloliters per day), several factors need to be considered. The capacity of the clarifier should be designed to effectively handle the flow rate and solids content of the effluent from the anaerobic digester, ensuring efficient separation and settling of solids. The clarifier is an essential component in wastewater treatment systems, responsible for the separation of suspended solids from liquid effluent. It works by allowing the heavier solids to settle at the bottom while the clarified liquid is discharged from the top. The size and capacity of the clarifier are crucial to achieve optimal performance and meet the desired effluent quality standards. Several factors influence the determination of clarifier capacity: 1. Flow Rate: The flow rate of the effluent from the anaerobic digester is a primary consideration in sizing the clarifier. It is important to ensure that the clarifier can handle the maximum flow rate without causing hydraulic overloading or compromising its settling efficiency. The flow rate is typically measured in liters per day (L/day) or kiloliters per day (KLD). 2. Solids Content: The solids content in the effluent also plays a significant role in determining clarifier capacity. Anaerobic digesters produce sludge, which contains both organic and inorganic solids. The concentration of these solids affects settling characteristics and determines how much space is required for effective separation. 3. Retention Time: The retention time refers to the duration that wastewater remains in the clarifier, allowing sufficient settling time for solids to separate from liquid. Retention time is influenced by factors such as flow rate, influent characteristics, and desired effluent quality standards. 4. Design Criteria: Various design criteria, such as overflow rates, surface loading rates, and sludge loading rates, are considered when sizing a clarifier. These criteria ensure that the clarifier operates within its design limits and achieves the desired performance. 5. Effluent Quality Standards: The required effluent quality standards, as mandated by local regulations or project specifications, also influence the clarifier capacity. Stricter effluent quality standards may require larger clarifiers to achieve the desired level of solids removal. Considering these factors, it is challenging to provide an exact capacity for the clarifier without more specific information about the influent characteristics, desired effluent quality standards, and other design parameters. However, a general rule of thumb is to size the clarifier based on a hydraulic retention time (HRT) of 2-4 hours. This means that the total volume of the clarifier should be able to accommodate 2-4 times the average flow rate over that period. For example, if the average flow rate from the anaerobic digester is 800KLD, and a hydraulic retention time of 4 hours is desired, then the total volume of the clarifier should be approximately 3200 kiloliters (800KLD * 4 hours). It is important to note that this calculation provides a rough estimate and should be further refined based on site-specific conditions, influent characteristics, and project requirements. Consulting with wastewater treatment experts or engineers experienced in anaerobic digestion systems would be advisable to determine the most accurate capacity for the clarifier.
When activated sludge becomes lighter and starts floating on the surface, it indicates a potential issue with the wastewater treatment process. Here are some steps to address this problem: 1. Identify the cause: Determine the underlying cause of the activated sludge floating on the surface. Several factors can contribute to this issue, including excessive growth of filamentous bacteria, poor settling characteristics of the sludge, or changes in the wastewater composition. 2. Evaluate operational parameters: Review and assess various operational parameters of the wastewater treatment plant. This includes examining the influent characteristics, such as organic loading, nutrient levels, and pH. Additionally, evaluate the aeration system, sludge age, and hydraulic retention time to identify any deviations from optimal conditions. 3. Adjust aeration and mixing: Proper aeration and mixing are crucial for maintaining a healthy activated sludge process. If floating sludge is observed, consider adjusting the aeration rate and pattern to ensure adequate oxygen supply while preventing excessive turbulence. Optimal mixing can help prevent filamentous bacteria from proliferating and promote settling of sludge. 4. Control filamentous bacteria: Filamentous bacteria are often responsible for poor settling characteristics and floating sludge. Implement strategies to control their growth, such as reducing hydraulic or organic loading rates, optimizing nutrient dosing (e.g., phosphorus), or using specific chemicals or biological products designed to inhibit filamentous bacteria. 5. Monitor and adjust solids retention time (SRT): The SRT is an important parameter that affects the overall performance of activated sludge systems. Adjusting the SRT by wasting excess sludge or increasing biomass retention can help improve settling characteristics and reduce floating sludge issues. 6. Consider chemical addition: In some cases, adding chemicals can aid in resolving floating sludge problems. Chemicals like coagulants or flocculants may enhance floc formation and settling properties of the sludge. However, careful consideration should be given to the potential impact on downstream processes and effluent quality. 7. Perform microscopic examination: Microscopic analysis of the activated sludge can provide valuable insights into the microbial composition and identify specific filamentous bacteria causing the floating sludge issue. This information can guide targeted interventions for controlling filamentous growth. 8. Optimize sludge wasting: Proper management of sludge wasting is essential to maintain a healthy sludge blanket and prevent excessive accumulation of solids. Regularly monitor and adjust the wasting rate based on settled sludge volume, biomass concentration, and observed settling characteristics. 9. Consider process modifications: If the floating sludge issue persists despite adjustments, it may be necessary to consider process modifications or upgrades. This could involve changes in aeration system design, installation of additional clarifiers, or implementation of advanced treatment technologies like membrane bioreactors (MBRs). 10. Regular monitoring and maintenance: Continuous monitoring of operational parameters, effluent quality, and sludge characteristics is crucial for early detection of any issues related to floating sludge. Regular maintenance activities such as cleaning of aeration equipment, clarifiers, and other process components should also be performed to ensure optimal performance. It is important to note that the specific actions required to address floating sludge may vary depending on the unique characteristics of each wastewater treatment plant. Consulting with wastewater treatment experts or specialists can provide tailored solutions for resolving this issue effectively.
You just have to follow the SOP at every step of plant process.🙂 And if you don't know the SOP just watch videos of ETP Knowledge Junction and follow me. You can join telegram group etp knowledge junction.
What will be the inlet effluent bod value.which you are considering as an optimum limit to maintain the mlss it's not yet determined i am telling you in practically.i have experience of more than 25 years in this field.the ideal biomass concentration should be maintained between 4000 and 5000 mgl depending on the different plant setup and treatment factor such as waste water characteristics especially on the raw effluent bod value.come to the main point the biological solid are measured in a lab procedure to determine the weight of solid the difference is the mlss is total solid weight and mlvss is the volatile fraction of the total solid usually just biological solid but can also include fibre and other organic infuent solid
Dear Sir, I respect your work experience in the field of wastewater management. I don't have that much experience, but the videos I make on the channel are based on the experience of people who have great experience in this field. I do research on any subject and conclude the results, and make videos on those conclusions. This topic is also a result of that conclusion. If you watch the video, I have mentioned that The MLSS will vary based on the sludge age, nature of wastewater (BOD, COD value), incoming solids, ambient conditions, and the size of the aeration tank. The value I have mentioned in the video is a desirable range of MLSS and MLVSS.
Bacteria ki quantity badhani hogi... watch video " bacteria and wastewater " is video me bataya gya h ki kon kon se factors effect krte hn bacteria ko. Thanks dear stay connected ❤️
Very nice explain 👌👌👌🙏
Thank you dear your comment..stay connected
Good ❤
Sir anarobic ka bhi ph- 8.9 hai
Dijestar ke bare me btao
Thaks sir mai Bihar se Sandeep kumar Rawat
Sir mere plant me secendary pe sludge floting bahut jyada ho raha he to kya kar sakte he
Sir, how to ascertain MLSS or MLVSS if we just know sludge settling ml/ltr? e.g. if Sludge Settling is 30% i.e. 300 ml/1000 ml how much will be MLSS/MLVSS mg/ltr. As it is very essential in case we don't have lab facility on site or plant. Made seperate vedio on this.
These values are somewhat related but not directly linked. MLSS is a measure of the amount of solids in the tank. The SV30 is a measure of the volume to which those particular solids will settle in 30 mins. If you were able to maintain a fairly constant MLSS value over a long period of time, the SV30 value would tell you if settle-ability was improving or worsening.
Sir aeration tank me foming bahut aa raha hai mlss - 600 ml/L hai aur ph - 7.50 hai fir bhi foming aa raha hai clerifire ka water bhi yellow colour ka ho gaya hai sir koi solution btayiye
Aapke aeration tank mein jo samasya (excess foaming aur water yellowness) ho rahi hai, uska mukhya karan low MLSS ho sakta hai. Aapka MLSS sirf 600 mg/L hai, jo ideal operation ke liye kaafi kam hai. MLSS ko 2000-3000 mg/L tak badhane ke liye aap kuch upay apna sakte hain:
1. Sludge Recirculation Increase: Secondary clarifier se sludge return ki matra ko badha sakte hain, taaki MLSS level mein sudhar ho.
2. Bio-culture Addition: Aap market se ready-to-use bio-cultures ya kisi dusre treatment plant se sludge import karke MLSS badha sakte hain.
Saath hi, foaming ko temporary rokhne ke liye antifoam agent ka upyog karna ek samayik solution ho sakta hai. Nutrient balance aur influent load ka analysis bhi zaroori hoga.
Join telegram group.
Mlss vs svi me kya deffrence hai uska vidio banaye please
Sir bod chemical prepared and role in bod chemical in bod process
Telegram group link
Just search etp knowledge junction in telegram
Digester tank COD. 700 mg/l
Aeration tank me. Kiu barjatahe tips
Sir ,TSS se Jayda BOD kyu ho Raha hai STP plant me
Brother sulphate ka proses Btao
Dear sir, if mlss and mlvss ratio 1:1 then aeration quality good or bad ?
1:1 ratio pr aapke effluent kisi quality achi nahi aayegi..
@@ETPKnowledgeJunction An interviewer asked me, is this explained in any video?
How much cowdung and bioculter should be added in aeration tank and AHR USBR
Plz join telegram group etp knowledge junction and ask questions there..
Anarobic tank 800kld. Anarobic clarifier kitne capacity ka hona chaiye.extra problem in Aeration tank
To determine the appropriate capacity of a clarifier for an anaerobic digester with a capacity of 800KLD (kiloliters per day), several factors need to be considered. The capacity of the clarifier should be designed to effectively handle the flow rate and solids content of the effluent from the anaerobic digester, ensuring efficient separation and settling of solids.
The clarifier is an essential component in wastewater treatment systems, responsible for the separation of suspended solids from liquid effluent. It works by allowing the heavier solids to settle at the bottom while the clarified liquid is discharged from the top. The size and capacity of the clarifier are crucial to achieve optimal performance and meet the desired effluent quality standards.
Several factors influence the determination of clarifier capacity:
1. Flow Rate: The flow rate of the effluent from the anaerobic digester is a primary consideration in sizing the clarifier. It is important to ensure that the clarifier can handle the maximum flow rate without causing hydraulic overloading or compromising its settling efficiency. The flow rate is typically measured in liters per day (L/day) or kiloliters per day (KLD).
2. Solids Content: The solids content in the effluent also plays a significant role in determining clarifier capacity. Anaerobic digesters produce sludge, which contains both organic and inorganic solids. The concentration of these solids affects settling characteristics and determines how much space is required for effective separation.
3. Retention Time: The retention time refers to the duration that wastewater remains in the clarifier, allowing sufficient settling time for solids to separate from liquid. Retention time is influenced by factors such as flow rate, influent characteristics, and desired effluent quality standards.
4. Design Criteria: Various design criteria, such as overflow rates, surface loading rates, and sludge loading rates, are considered when sizing a clarifier. These criteria ensure that the clarifier operates within its design limits and achieves the desired performance.
5. Effluent Quality Standards: The required effluent quality standards, as mandated by local regulations or project specifications, also influence the clarifier capacity. Stricter effluent quality standards may require larger clarifiers to achieve the desired level of solids removal.
Considering these factors, it is challenging to provide an exact capacity for the clarifier without more specific information about the influent characteristics, desired effluent quality standards, and other design parameters. However, a general rule of thumb is to size the clarifier based on a hydraulic retention time (HRT) of 2-4 hours. This means that the total volume of the clarifier should be able to accommodate 2-4 times the average flow rate over that period.
For example, if the average flow rate from the anaerobic digester is 800KLD, and a hydraulic retention time of 4 hours is desired, then the total volume of the clarifier should be approximately 3200 kiloliters (800KLD * 4 hours).
It is important to note that this calculation provides a rough estimate and should be further refined based on site-specific conditions, influent characteristics, and project requirements. Consulting with wastewater treatment experts or engineers experienced in anaerobic digestion systems would be advisable to determine the most accurate capacity for the clarifier.
Sir aghr anaerobic plant 5500m3 ka hai tu aak tank mae water volume kitna ho ga
Mujhe sawal samjh nahi aaya.
UASB ke bare video banao
Ok
Sir ppm % nikalna bataiye
Aeration tank ka sludge halka hojaye to kya kare
When activated sludge becomes lighter and starts floating on the surface, it indicates a potential issue with the wastewater treatment process. Here are some steps to address this problem:
1. Identify the cause: Determine the underlying cause of the activated sludge floating on the surface. Several factors can contribute to this issue, including excessive growth of filamentous bacteria, poor settling characteristics of the sludge, or changes in the wastewater composition.
2. Evaluate operational parameters: Review and assess various operational parameters of the wastewater treatment plant. This includes examining the influent characteristics, such as organic loading, nutrient levels, and pH. Additionally, evaluate the aeration system, sludge age, and hydraulic retention time to identify any deviations from optimal conditions.
3. Adjust aeration and mixing: Proper aeration and mixing are crucial for maintaining a healthy activated sludge process. If floating sludge is observed, consider adjusting the aeration rate and pattern to ensure adequate oxygen supply while preventing excessive turbulence. Optimal mixing can help prevent filamentous bacteria from proliferating and promote settling of sludge.
4. Control filamentous bacteria: Filamentous bacteria are often responsible for poor settling characteristics and floating sludge. Implement strategies to control their growth, such as reducing hydraulic or organic loading rates, optimizing nutrient dosing (e.g., phosphorus), or using specific chemicals or biological products designed to inhibit filamentous bacteria.
5. Monitor and adjust solids retention time (SRT): The SRT is an important parameter that affects the overall performance of activated sludge systems. Adjusting the SRT by wasting excess sludge or increasing biomass retention can help improve settling characteristics and reduce floating sludge issues.
6. Consider chemical addition: In some cases, adding chemicals can aid in resolving floating sludge problems. Chemicals like coagulants or flocculants may enhance floc formation and settling properties of the sludge. However, careful consideration should be given to the potential impact on downstream processes and effluent quality.
7. Perform microscopic examination: Microscopic analysis of the activated sludge can provide valuable insights into the microbial composition and identify specific filamentous bacteria causing the floating sludge issue. This information can guide targeted interventions for controlling filamentous growth.
8. Optimize sludge wasting: Proper management of sludge wasting is essential to maintain a healthy sludge blanket and prevent excessive accumulation of solids. Regularly monitor and adjust the wasting rate based on settled sludge volume, biomass concentration, and observed settling characteristics.
9. Consider process modifications: If the floating sludge issue persists despite adjustments, it may be necessary to consider process modifications or upgrades. This could involve changes in aeration system design, installation of additional clarifiers, or implementation of advanced treatment technologies like membrane bioreactors (MBRs).
10. Regular monitoring and maintenance: Continuous monitoring of operational parameters, effluent quality, and sludge characteristics is crucial for early detection of any issues related to floating sludge. Regular maintenance activities such as cleaning of aeration equipment, clarifiers, and other process components should also be performed to ensure optimal performance.
It is important to note that the specific actions required to address floating sludge may vary depending on the unique characteristics of each wastewater treatment plant. Consulting with wastewater treatment experts or specialists can provide tailored solutions for resolving this issue effectively.
Sir ji SBR tank me require DO kitani hoti h
1.5 to 3ppm
How to maintain mlss and mlvss ratio an aeration tank pl let me know
Watch activated sludge process video
Mujhe testing sikhni hai please help me
You can watch RUclips videos also read IS Code 3025. Join telegram group etp knowledge junction.
How to reduce COD please suggest sir
You just have to follow the SOP at every step of plant process.🙂
And if you don't know the SOP just watch videos of ETP Knowledge Junction and follow me. You can join telegram group etp knowledge junction.
What will be the inlet effluent bod value.which you are considering as an optimum limit to maintain the mlss it's not yet determined i am telling you in practically.i have experience of more than 25 years in this field.the ideal biomass concentration should be maintained between 4000 and 5000 mgl depending on the different plant setup and treatment factor such as waste water characteristics especially on the raw effluent bod value.come to the main point the biological solid are measured in a lab procedure to determine the weight of solid the difference is the mlss is total solid weight and mlvss is the volatile fraction of the total solid usually just biological solid but can also include fibre and other organic infuent solid
Dear Sir, I respect your work experience in the field of wastewater management. I don't have that much experience, but the videos I make on the channel are based on the experience of people who have great experience in this field. I do research on any subject and conclude the results, and make videos on those conclusions. This topic is also a result of that conclusion. If you watch the video, I have mentioned that The MLSS will vary based on the sludge age, nature of wastewater (BOD, COD value), incoming solids, ambient conditions, and the size of the aeration tank.
The value I have mentioned in the video is a desirable range of MLSS and MLVSS.
@@ETPKnowledgeJunction you are very much right
Agar vss 30% h to kya Kiya Jaye sir
Bacteria ki quantity badhani hogi... watch video " bacteria and wastewater " is video me bataya gya h ki kon kon se factors effect krte hn bacteria ko.
Thanks dear stay connected ❤️
Sir aapne ratio kaise decide kiya ? Ki 0.75 hi hona chahiye
Thanks dost... Jo bhi data aata h wo researchers k aadhar pr aata h. MLSS and MLVSS ka ratio h wo.
Sir agar apne ratio alag rakhe to kya hoga ?
Aur sir ye ratio ka data kaunse factor pe depend karta hai
Wahi jo video me bataya gya h...🤭
Aeration tank problem ploymer in Aeration tank
I want to learn stp design. Please help me
You can join my paid classess.
@@ETPKnowledgeJunction send the link
Paid classes ka koi link nahi h..wo course h
@@ETPKnowledgeJunction ok. then how to I join
Share your requirements on mail. I'll send you course topics and quotation. sanjeetrawat684@gmail.com
Yiu didn't explain range for mlss only 3000mg /l mentioned
Hi sunil,
I didn't get your question.
Thanks dear stay connected ❤️
Hi sir I mean to say that any criteria is there that minimum &,maximum value of mlss should maintained
Dear as I have explained in video the very lower and very higher limit of MLSS is not good for sludge condition and a value around 3k mg/l is good.
Suppose I m control aeration tank pH to 7.95 then I stop plant and check pH after 8hours then aeration pH 8.26 .plz guide me why areation pH increase.
Great observation...please watch HOW TO REMOVE AMMONIA FROM WATER video on RUclips channel etp knowledge junction. Your all concepts will be cleared.
We couldn’t understand ,you just read it
Telugu language
Not possible friend.