Industrial Overland Flow Pretreatment

Hi friends, I need an industrial water pretreatment system drawing for oil water, detergents and solvents.

This is for industrial overland flow need to be pretreated before dispose to a surface water main network.

Any suggestions or advice?

Taxonomy

• Industrial Wastewater Treatment
• Industrial Water Treatment
• Oil Water Separation
• Industrial
• Wastewater Treatment
• Flowmetering
• Wastewater Treatment Plant Design
• Surface Flow Analysis
• Solvents
• Solvents
• Pretreatment

19 Answers

1. We can probably proviede solution to this issue...please visit noxxall.com or respond on info@noxxall.com / nanosciences@hotmail.com

   regards

   Dr. madan Iyengar

   1 Comment

   1. Raghavendra

      I hope Nano Science have some solutions for your query, perhaps you may look into

2. Shri Raghavebdra

   could you write to ONGC unit, Uran near Mumbai. For handling surface storm water they have got done study in 2008 from CWPRS, perhaps you may get some lnk

3. Redoxint project is patented and looking for development partner

   My prayer is to study carefully to understand the huge potential of the process

   I am looking for a financial or associate partner

   Here are some key phrases that describe the Redoxint project:

   1. Completely ecological industrial platform without any gas emittion or other polluting materials. 

   2. Burning thousands of tonnes of household waste annually per furnace (without needing selection). 

   3. Alternative fuel production at competitive prices and in massive amounts. 

   4. Waste processing and industrial pollution neutralising of any kind (even burning gasses) 

   5. The re-launching and sustaining of the chemical industry on an ecological basis. 

   Redoxint project introduces a series of novelties at conception, which requires design and simulation, in order to have a comprehensive view on technology

   Pollution appears when the technological progress reaches a level where it starts having a major impact upon the environment and the by-products management is not prioritised because of economic reasons. Massive gas emission with greenhouse effect are the result of a faulty attitude towards technology. In the same category one should include household and industrial waste management.

    

   The level of pollution is so high that a change in attitude is needed towards the environment.

    

   The Redoxint procedure is complex without being complicated, combines existing technologies with innovation and it is in one word: The Future.

    

   One of the most dangerous products for the environment are carbides. The release of carbon monoxide in the air is a big financial and energy related issue. The first patent that the Redoxing project is based upon describes a procedure and a processing equipment that processes carbides in a Tunnel Furnace.

    

   The Tunnel Furnace used as an electrochemical reactor provides result gases at reasonable temperatures for them to be used as primary raw material for synthesis processing equipments (Fischer-Tropsch, Urea).

    

   All these equipment can process huge amounts of gases that were released in the special temperature conditions specific to the Tunnel Furnace.

    

   Carbide production happens at very high temperatures and the energy produced by the electrochemical reaction can be used for burning the household waste. The released gases of this burning procedure (at more than 1000°C) will enter the synthesis processing equipment, without any gas being released in the atmosphere.

    

   The massive carbide production is justified by the use in the dehydration of ethyl alcohol obtained from the fermentation technology and cellulose producing technology. Both of them have alcohol in water as outcome.

    

   The second patent included in the Redoxint project deals with the utilisation of the carbide obtained in eco-friendly conditions for the dehydration of ethyl alcohol. The dehydrated ethyl alcohol is the alternative energy source of the future when the cost is regulated by the Redoxint procedure. Also the massive quantities of acetylene obtained is an exceptional raw material in the synthesis chemical industry. Acetylene is the raw material used in the chemical industry that leads to the production of all the organic products, from rubber to plastic materials and drugs, dyes, alternative fuel or synthetic fibres. I do not want to insist any further on the major importance of the acetylene, the main point is that acetylene is the most important raw material for the organic and synthesis chemical industry.

    

   At the end of the Redoxint production cycle, there are two main products: Ca(OH)2 (slaked lime) and the ash produced by the waste burning, both of them used as construction materials.

    

   The Redoxint project is a perfectly eco-friendly industrial platform which gives the opportunity for other processing equipments to be attached to the existing platforms for processing by-products and for utilising the renewable energy of the Redoxint platform. There can be attached biodiesel processing equipments (which use alcohol), food industry and construction material equipments. The Tunnel Furnace can even process chemical industry gas by-products.

    

   This kind of industrial platforms can be built anywhere in the world, no exception. The platform’s dependency is only on the amount of green-house gases that need to be processed and house hold waste that needs to be burned. By combining more production centres, the production can reach millions of tons of house-hold waste and just as much greenhouse gases that need to be processed each year. 

    

   In the case that the Redoxint technology has to be extended, it is flexible enough to permit it. The amounts of dehydrated alcohol, biodiesel and synthetic fuel from the Fischer-Tropsch equipment are comparable at price with the conventional energy sources. Also in the case of several platforms combined, there is always the possibility of completely replacing the conventional energy sources.

    

   The Redoxint technology is exceptional through simplicity and through the combination of already in use technologies with innovative one on one industrial platform. The capacity of becoming highly modular and the adaptability of Redoxint is sufficient to allow the reshape of the existing technological industry platforms.

    

   Processing flue gases from the furnace tunnel in Solvay plant for seawater desalination offers the cheapest drinking water

   EXPENSES production are minimal, considering that all reagents are byproducts of peripheral tunnel furnace installations

   Such production's expense are transferred acetylene's expense with the raw materials and energy for desalination are theoretically zero

   Redoxint process used for seawater desalination has the lowest production cost and quantity of drinking water most between the previous process

   Redoxint process offers solutions for two fundamental requirements in desalination, low price, and the maximum quantities of desalinated water

   If there is already functional Solvay plant, construction furnace and peripheral installations are very easy to make

    

   In the case of chemical industry, one can imagine and adapt massive equipments for sea water desalinisation, massive construction material production (like concrete), and all the platforms that can be described as eco-friendly and with a good waste management. In this way, the Redoxint project makes neutralising and reusing of massive gas exhaust from a concrete plant for example, possible.

   Person of contact: 

   ing.Pardi Zoltan 

   Organization: 

   REDOXINT Address: 

   Alesd-Bihor RomaniaTel. 0723594373, email 

   redoxint@yahoo.com 

   http://www.linkedin.com/profile/view?id=186378912&trk=hb_tab_pro_top

   https://www.maven.co/maven/425268/profile

   https://www.innocentive.com/ar/workspace/challengeDetail?challenge=9933337 

    

    

   I am looking forward to hearing from you! 

   Sincerely yours,

   Zoltan Pardi

4. Contact me. I have a sustainable solution. joymanglani2@gmail.com

5. First place a trap of fats and oils, drawing on the internet, to lower the other levels, recommended physicochemical analysis, emphasizing the parameters to control in your country, to generate a conceptual engineering and give you the guidelines of operations.

6. Dilute air flotation is suitable for removel of oily substance  and you can inject some coagulent to settle the waste at bottem and then flush out manually 

7.  

   Hi guys,

    

   Thanks for your valuable information. I will describe more about this in clearly

   • Industrial park buildings workshops will produce some “oily water” that will be discharged into the sewer network. Additionally, there are detergents and solvents at washing/inspection part of the workshop that again will be discharged to the sewer
   • Given that the sewer will have all these oil remains, detergents and solvents, the sewer needs of the Industrial Park needs to by pre-treated on-site before discharging to the External sewer network
   • Aramco provided the attached describing the standards of the pre-treated of the sewer effluent that is discharged to Dammam STP to be used as a reference.

    

   What we are looking for is either individual system per workshop or a combined 'site' system for the sewer pre-treatment.

    

   I need a basic pretreatment process diagram sketch. We don't have sufficient data at present

    

   We need to assume min flow  

    

8. Contact us at menacherilcommco@gmail.com with the tested water report and we can provide the process design and if required the equipment. In preliminary view you require, screening, dissolved air floatation followed by AOP and filtering with activated carbon adsorption. If the BOD and COD is high biological treatment has to provided. 

9. I would advise to use a preliminary treatment followed by a DAF unit.

   1 Comment

   1. it depends what is the concentration of the effluent laden with oil and surfactant.

      1.Depending upon it will be decided whether to chose a coarse bubble aeration or fine bubble aeration.

      2. Temperature and time also plays a vital role in Stripping So what is the Temperature of the effluent.

      3. What are Diurnal Variations in effluent. 

10. A better characterization of the waste would be helpful. My first thought was recovery and reuse, trying to reclaim any left over value. 

11. You contact your local city engineer.

12. 1. Three way , Basic design

    2. DAF

    3. EC

    AGGIE BKK Thailand

     

13. The technology called Bioremediation would meet and exceed your goals. After water is cleaned it will be potable.  Rna species name is Archaea.

14. Have you considered membrane filtration such as ultra filter?

15. Contact me 

16. Give me your personal contact please 

17. Have you tried Dissolved Air Flottation (DAF) ? Many suppliers, very easy system to implemet/Draw and perfect to remove Oil&Grease, not sure about detergent and solvents though

18. We can suggest an excellent solution to treat such composite wast water .please visit noxxall.com or reach us on nanosciences@hotmail.com or info@noxxall.com

    Dr. Madan Iyengar

19. Hi, the ideal solution for this kind of wastewater is the electro-coagulation process (EC). It's a very powerful process for highly complex and highly polluted industrial wastewaters.  We at VentilAQUA have a long experience on using EC process on industrial applications. Let us know if we can help you.

     

    1 Comment

    1. Hello from Thailand Mr. Oliveira @francisco oliv

       My name is AGGIE Energy and Environment Consultant work as Freelancer from BKK Thailand. I had a chance of EC 2 time last 15 and 7 years ago and the EC came from German and India. I still want to know about the efficience and the innovative of EC. Could you pls sent me about your Products..

       Best Regards

       Thank you in advance