The leather industry is considered in all the World as a contaminant and dirty industry.

Similar documents
A Case Study from EP3: Pollution Prevention Assessment from a Cattle Hide Tannery. HBI Pub. 10/31/94

Tannery Wastewater Treatment

Leather Powered by Probiotics

Module- 35. Lec- 35. Dr. ShishirSinha Dept. of Chemical Engineering IIT Roorkee

Basic knowledge of Wastewater

Treatment and Reuse of Tannery Waste Water by Embedded System

Wastewater Terms for Permit Applications

BAT: BEST AVAILABLE TECHNIQUES FOR TANNING OF HIDES AND SKINS. Inputs to Guide for a more sustainable tannery sector in the Medierranean

AN ASSESSMENT OF ENVIRONMENTAL CONCERNS IN THE LEATHER INDUSTRY AND PROPOSED REMEDIES: A CASE STUDY OF PAKISTAN

TRUMPLER International X th CONVEGNO TECNICO AICC VENETO Arzignano, Italy 23 November Chemical Oxygen Demand: Fatliquors & Retanning Agents

Guide towards a more sustainable tannery sector in the Mediterranean

Best Available Techniques for the Mediterranean Tanning Sector

RECYCLING OF LIME UNHAIRING AND CHROMIUM SOLUTION

Study Session 4 Liquid Wastes: Sources, Types and Characteristics

Zero Discharge for Textile Industry

Pretreatment of Industrial Wastewater for ZLD/Resources Recovery

A Management Study on Recovery and Recycling of Useful Material in Leather Tanning Industry

Industrial Waste Water Treatment. Unit 5

SBR PROCESS FOR WASTEWATER TREATMENT

Cleaner Production (CP) in Olive Oil Industry in Jordan

Wastewater treatment objecives

How can liquid ozone be used in different industries?

LIQUID AND SOLID WASTE IN THE TANNING PROCESS. TECHNOLOGICAL CHOICES IN RELATION TO THE CONTEXT

WASTEWATER TREATMENT SYSTEM

Innovative Options to Add Value to Solid Leather Wastes

Chapter 2 Wastewater Treatments for the Food Industry: Physical Chemical Systems

CLEANER PRODUCTION GUIDELINES IN SMELTING INDUSTRIESS

final report Water quality improvement strategy for a processing site

The Biology of Composting

COMMISSION IMPLEMENTING DECISION

A New Millennium Bio-Driven Leather Process for Clean Pathway

Chapter - 6 Treatment for Recycling of Segregated Wastewater Generated from Dyes, Dye Intermediates and Textile Dyeing and Printing Industries of

Module 11 : Water Quality And Estimation Of Organic Content. Lecture 14 : Water Quality And Estimation Of Organic Content

Contents General Information Abbreviations and Acronyms Chapter 1 Wastewater Treatment and the Development of Activated Sludge

Worldwide Pollution Control Association

Study for municipal WWTP in Spain

Worldwide Pollution Control Association

Best Practice in Sewage and Effluent Treatment Technologies

Process and Technologies of Treatment & Pre-treatment for Municipal & Industrial Wastewater

Case Study. Biological Help for the Human Race. Industrial Wastewater Treatment at Eastern Seaboard Industrial Estate, Thailand.

BOD/CBOD, TSS ph OPERATOR BASICS. Presented by: Marcy Bolek - Alloway

FEASIBILITY REPORT OF 250 KLD SEWAGE TREATMENT PLANT

Water Technologies. PACT Systems: Cleaning up Industrial Wastewater in One Step

Bio-Lair for Water Remediation

AMPC Wastewater Management Fact Sheet Series Page 1

AMPC Wastewater Management Fact Sheet Series Page 1

Department of Civil Engineering-I.I.T. Delhi CVL723 Problem Set_2_Feb6_15

AMMONIA REMOVAL FROM DIGESTED SLUDGE SUPERNATANT

GENERAL DESCRIPTION AQUATRON VERSION: 1.8. Aquatron

Zero Liquid Discharge for Pharma Challenges & Solutions

How can the extraction of palm oil be improved and at the same time prepare the biomass for the milling process to produce glucose and xylose.

Feasibility Report on Sewage Treatment Plant (STP)

Introduction. Brine production

Application of the AGF (Anoxic Gas Flotation) Process

HWEA Conference March 16, 2010 ThermAer : A New Day for ATAD Thermal Process Systems

CTB3365x Introduction to Water Treatment

Wastewater Treatment Processes

Treatment of Tannery Effluents by the Process of Coagulation

Science Exploration. DHRITI BHATTACHARJEE Class : VII/C Roll No : 31

Hybrid Tannage Using a Cationic Syntan (CAT) in Combination with Chrome for a Complete Exhaustion in Tanning

OsmoBC Integrated Membrane Systems

Water Chemistry and Plant Performance

Grey Water Treatment Plant

KEYWORDS: Adsorption, Chromium(VI), COD, Tannery Effluent, Banyan Sawdust.

Biodegradation Test of Chemical Substances

A Research on treatability of leather industry wastewater by using electro-fenton process

VALORIZATION OF SOLID WASTE FROM THE TANNERY INDUSTRY: PREPARATION OF ADSORBENT BY COST EFFECTIVE METHOD

RECOGNIZING that the leather industry is responsible for a part of the discharges of hazardous substances, especially chromium, into the Baltic Sea,

Waste water treatment Biological treatment

Best Available Techniques in the Textile Sector. Brigitte Zietlow German Federal Environment Agency

Egaa energy producing WWTP reaching 150% through partnerships and cooperation

Copies: Mark Hildebrand (NCA) ARCADIS Project No.: April 10, Task A 3100

NITROGEN REMOVAL OPTIMISATION FROM COMPLEX WASTEWATER

Membrane BioReactor: Technology for Waste Water Reclamation

The novelty, the originality, predominancy,and usefulness of an AOSD control system and a MEIDENSHA ceramic inorganic matter film

Study on Fish Processing Wastewater Treatment by Swim-bed and Stick-bed Processes

TRACAVAARI - Advanced Treatment of Industrial Wastewater

EHS SMART-Treat Onsite Moving Media Treatment System

RECYCLING OF TANNERY LIQUORS*

New Methods of Textile waste water treatment. Leture 37

TEXTILE INDUSTRY AND ENVIRONMENT. W.J.K.Dushyanthi Ranpatige Research Officer Industrial Technology Institute

Case Study. Biological Help for the Human Race. Bathurst Municipal Wastewater Treatment Works, New South Wales, Australia.

Thermal Process Systems. Quality Biosolids Through Advanced Technologies

COMPARATIVE ANALYSIS OF MULTIPLE EFFECT EVAPORATORS AND ANAEROBIC DIGESTER (UASB) FOR AN EFFECTIVE MANAGEMENT OF RO REJECT FROM TANNERY

International Journal of Science, Environment and Technology, Vol. 4, No 5, 2015,

WASTEWATER TREATMENT

ENVIRON- MENTAL SUST AIN- ABILITY

Green Machines. Bangalore.

WASTEWATER 101 Fo r MOWA

5. ENVIRONMENT MANAGEMENT PLAN

Feasibility Report of Proposed ETP cum STP. M/s. Zakiya Healthcare Plot No.39, Pharmacity Selaqui, Dehradun (Uttarakhand)

Duffin Creek Water Pollution Control Plant Technical Information

Case Study. BiOWiSH. Aqua FOG. Biological Help for the Human Race. Bioremediation Improves River Water Quality, Sungai Merlimau, Malaysia

ENZYME TECHNOLOGY ENERGIZED BY. Peltec X-Zyme

CHEMICAL AND BIOLOGICAL SULFATES REMOVAL

Wastewater Treatment and Recycling Prof. Manoj Kumar Tiwari School of Water Resources Indian Institute of Technology, Kharagpur

Wastewater Treatment Processes

Using Compact Combined Constructed Wetland as Post Treatment for Biogas Wastewater

CE 370. Wastewater Characteristics. Quality. Wastewater Quality. The degree of treatment depends on: Impurities come from:

ECO Smart Aerobic Waste Water Treatment System. Optimising the re-use and recycling of waste water

Transcription:

Miguel Vila Badia

The leather industry is considered in all the World as a contaminant and dirty industry. Today, this qualification is not right. In a lot of countries, using the clean technologies there is a big change in our sector, and, in a time of recovering and recycling well considered in all the world, I believe that we arrived to the point to remark the dignity of our work, and between everyone change that all image and obtain the recognition of our efforts.

The TARGET of any Leather Industry with long term objectives must to be: OBTAIN PRODUCTS OF THE BEST QUALITY, AT A REASONABLE COST, PRODUCING AS LESS CONTAMINATION AS POSSIBLE, WITH THE MINIMUM CONSUMPTION OF WATER AND RECOVERING AND RECYCLING ALL THE POSSIBLE

Thinking about Polution: There are three kinds of contamination coming from the leather and the process of achieving it: Ø AVOIDABLE: Part of the excessive salt, organic residuals, sand, part of the fats. Ø UNAVOIDABLE: Is coming from the leather material, hair, liquid keratine, rests of meat and leather, liquid proteins, Suppose the 60% of COD and is organic and with biodegradability. ADDED: Products not well fixed during tanning, in part we can avoid it

According with the anterior explain, the tanner must: Ø Try to obtain the leathers with the minimum of avoidable contamination, first step of a good environmental management. Ø Use clean technologies that reduce the unavoidable contamination. Ø Select the right products and develops the right processes for to generate the minimum added contamination.

Main Pollution agents characteristical of the waste tannery waters: Salts and conductivity produced by them. Soluble organic material, coming from the hides, from tannin agents or dyes. Is the basis of the COD and BOD, could be reduced in 95% with a good biological depuration. Sulfides. Can be cleaned by air oxidation. Ammonia nitrogen or total. We can eliminate in the biological process by the reactions of nitrification and denitrification. Chrome 3. Coming from the tanning agents not properly fixed or returned to dissolve, we can eliminate by fall.

USE OF CLEAN TECHNOLOGIES: Reduction of salts contamination: Alternatives by cleanest order: Ø Cold conservation. Is needed the daily collect with fridge trucks. Ø Salted with solved salts: Better with a previous removal of the flesh, liquid salted in bath during 18 hours with a low removal type Holland bath, the leathers absolves around 20% of the weight in salt. Ø Classical Salted : we need around 7 days for obtain a good result, a 20% of salt is lose by filtration.

Reduction of pollution in the wet processes: The high temperatures make a degradation of the leather and increase the COD in all the effluents of the process. Reduction of MES and COD. Peeling recovering the hair. This process allow us to reduce around 40-50% MES and COD, at the same time we are reducing the sulfide contained in the waste water. Reduction of Nitrogen. Making a partial substitution of the ammonal salts. Peeling recovering the hair. Doing nitrification and de-nitrification reactions in the biological depuration.

Reduction of contamination recovering baths of Chrome III. The Chrome III at ph 7 is chemically an stable hydroxide, Is not cancelling the process of biological depuration but is reducing the results. Is conditioning the final destination of the mires due that the maximum allowed for agricultural uses is of 1.500 ppm on dry weight. Uses of 6,5 7 % of solid chrome salts are enough for a proper tanning if we are controlling well all the conditions. The excess of Chrome could be separate by fall.

Reduction of contamination produced by added products: For to obtain the minimum contamination the tanner must: Ø Purchase chemical products concentrates, preferably in liquid. Ø Select high fixation ones. Ø Control the process conditions for to obtain the better fixation. ph, temperature, time and mechanical effect conditions. Ø Control of characteristics of not fixed products in front of biological reactor and final destination.

Water saving: Usually the water saving is a consequence of the clean technologies. Ø Any system of get off solid materials help us to reduce the volume of water to use. Ø The discontinues washes help us the save water and we win regularity Ø The pressing machines for washing floor and machinery will also save water.

Waste water depuration in Leather Industry. Ø The contamination in tannery water is almost organic and biodegradable, coming from solved protein and organic products not properly fixed in the process. The conjunction of all the process waters at levels of concentration coming from clean technologies, allow the live and the work of the bacteria and a good biological depuration. Ø Is essential a previous de-sulfide process and a homogenization of 48 hours for obtain uniformity.

Waste water depuration in Leather Industry From all the contaminants, only the salts remain unaltered after the proposed procedures. The concentration levels of chloride are between 3.000 y 6.000 mg./liter and the sulfate ones between 1.000 y 2.000 mg./ liter. The destination of the used waters will determinate the parameters, sometimes the only solution is to make the global treatment with urban waters or coming from other industries with biological, this dilution could help us to obtain the required levels.

Basical conditions for a good depuration of waste water from leather Industry: Is convenient to dispose of a homogenization tank with air contribution during 48 hours making a regularized charge and flow. If we have variations of conductivity higher 15.000 micro Siemens can produce reductions of performance. We recommend to make a supply of additional air to liming water before to pass to homogenization bath. The biological treatment must be retained during 2-3 days for reduce the size of the bigger organic molecules that produces color in the water.

Basical conditions for a good depuration of waste water from leather Industry: Ø Is important that the level of the water in the biological tanks would be on 6 meter for to have a good transference of oxygen in the air. Ø In the primary decanting of a well homogenized water, we can make the elimination of a 75% of suspended solids and 35-40% of COD. Ø With centrifugal or press filter with right polyelectrolytes, the reject can arrive to 28-29 % dry.

Uses of the sludge produced in Leather Industry: Ø These ones usually have 60-70 % Organic materials on dry weight, 3-5% of Nitrogen but a low contain of Potassium. Ø If we did a proper reduction of Chrome, we can use for agricultural uses making an adaptation to the specific cultivation. Ø When we use for situational agriculture, then, must to be stabilized waiting for the use, making by composting or thermal drying.

Recycling water in Leather Industry: Recycling refined water. Ø We can do in sheepskin process, where the comsumation by skin is around 150-200 liters per unit. The idea is recycling levels of 40 %. Ø Also is interesting for washing baths during all the process, even in cow leathers. Ø The reduction of water volume used is not necessary a reduction of contamination because each kg of leather produced a determined quantity of contamination, the factor changing is the concentration in water.

Resume of the clean technologies use in Leather Industry: Selecting the raw material, purchasing concentered products, taking the clean technologies explained, doing little process variations, taking special attention to bath exhaustion, taking measures for increase the fixation in all the process. Is possible to reduce the contamination of the waste water in more than 50% compared with traditional process and save around 30-40 % of water.

Resume of the clean technologies use in Leather Industry: Ø The investment cost will be recovered fast due to the saving in products and environmental costs, at the same time we are increasing our quality and regularity. Ø Reduce the contamination is not difficult, is a question of interest, imagination and enough recoverable investment. Ø The satisfaction of to reduce the contamination and help to change the image of our industry compensate all the efforts.

THANKS FOR YOUR ATENTION Miguel Vila Badía Perito Industrial Químico, Técnico Diplomado en Curtidos Experto en aplicación de tecnologías limpias en el sector curtidos y la depuración. c/ Doctor Coca 4, 1º, 1ª 08700 IGUALADA ( Barcelona ) ESPAÑA Tel. 0034 652 94 30 90 E.mail: miquelvilabadia@hotmail.com

2024 © businessdocbox.com Privacy Policy | Terms of Service | Feedback