START A SILVER RECOVERY SYSTEMS AND WASTE REDUCTION
(270). START A SILVER RECOVERY SYSTEMS AND WASTE REDUCTIONThere are several reasons to be interested in the recovery of silver from photoprocessing waste. Silver is a valuable natural resource of finite supply, it has monetary value as a recovered commodity, and it's release into the environment is strictly regulated. In photoprocessing, silver compounds are the basic light-sensitive material used in most of today's photographic films and papers. During processing, particularly in the fixing bath or bleach-fix, silver is removed from the film or paper and is carried out in the solution, usually in the form of a silver thiosulfate complex.
Major sources of recoverable silver are: photoprocessing solutions, spent rinse water, scrap film, and scrap printing paper. As much as 80 percent of the total silver processed for black and white positives and almost 100 percent of the silver processed in color work will end up in the fixer solution. Silver is also present in the rinse water following the fixer or bleach-fix due to carry-over.
Economic considerations include initial equipment cost, the amount and value of silver recovered, and the return on investment. Space and energy requirements, day-to-day attention required, maintenance, and reliability are also important. It is necessary to know the amount of silver available for recovery, the total volume of fixer and bleach-fix solutions used in processing, and the expected performance of the recovery method under consideration.
Several technologies exist for recovering silver onsite. The most common methods of onsite recovery from the fixer and bleach-fix processing solutions involve metallic replacement, electrolytic recovery and chemical precipitation. Ion exchange and reverse osmosis are other methods that can be used alone or in combination with conventional silver recovery systems. However, these are generally considered suitable only for dilute solutions of silver. A silver recovery system can be devoted to a single process line or can be used to remove silver from the combined fixer from several process lines in a plant.
The most widely used silver recovery method for large operations is electrolysis, where the silver is recovered from solution by electroplating it on a cathode, Fig. 1. A controlled, direct electrical current is passed between two electrodes suspended in the silver-bearing solution. Silver is deposited on the cathode in the form of nearly pure silver plate. The cathodes are removed periodically, and the silver is stripped off for sale or reuse. While this method requires a substantially larger capital expenditure and needs an electrical connection it does have the advantage over other methods in that it yields virtually pure silver. This results in lower refining and shipping costs and it does not contaminate the fixer, thereby permitting its reuse for some processes. When properly operated, 95 percent of the potential available silver can be recovered. Combining electrolytic silver recovery with in-situ ion exchange can result in more than 99.5 percent silver recovery efficiency.
A recirculating electrolytic recovery system has advantages over systems that only remove silver. Silver is removed from fixer solution by the recovery cell which is connected "in line" as part of a recirculation system. Fixer solution reclaimed by electrolytic silver recovery can have limited reuse in the photoprocess. By recirculating the desilvered fixer to the in-use process tank, less fresh fixer solution is needed to replenish the bath. Fixer replenishment can be reduced 20 percent or more without degradation of product quality. Chemical replenishment can be managed through the frequent and consistent use of test strips. A properly designed recirculating system can lower the silver in the fixer from a concentration of 1 ounce/gal. to 1 ounce/100 gals. The amount of silver carried over to the rinse water is similarly reduced.
Metallic replacement requires little capital expenditure for equipment and requires only a few simple plumbing connections. The equipment consists of a plastic container, a plastic-lined steel or stainless steel drum filled with metal, usually steel wool, and some plastic hose and plumbing connections.
See Fig. 2. Silver is recovered when the silver-bearing solution flows through the cartridge and makes contact with the steel wool. The iron goes into solution as an ion, and the metallic silver is released as a solid to collect in a sludge at the bottom of the cartridge or is deposited on the steel wool. The yield a user can expect is determined by the silver concentrations in solution, the volume of solution that is run through the cartridge, and the care with which the operation is managed. When silver is no longer effectively removed, the silver-bearing sludge is sent to a refiner who will refine it and pay the customer for the recovered silver.
How to recover silver from x-ray filmsSilver extraction from x-rays is a big business these days. When we talk of How to recover silver from x-ray films, we should also know that silver recovery from photo films, fixer and hypo solutions also fall in the same category, because when we go to purchase used x-ray films either from scrap dealers or x-ray clinics, government or private hospitals etc. we also get the other above mentioned stuff from them. Silver extraction from x-ray films is much talked about thing, that’s why when it comes to starting silver recovery business; we only identify it with x-ray films scrap only.
Silver extraction from used x-ray film is a big and organized trade in India. Almost in every Indian city you can find lot of people engaged in the business of silver recovery from x-rays. You will be amazed to know that in Delhi alone there are around one thousand units of silver recovery from x-rays. Plus point of this business is that the washed x-ray sheets (after silver has been recovered from them) also have resale value since they find use in the readymade shirts industry. Good condition washed x-ray sheets can fetch you around Rs. 80/- per kilogram.
We get two types of x-ray scrap in India. One is which is picked up by the rag pickers from the streets of residential areas and finally sold to plastic scrap dealers by them. And these plastic dealers from small and big towns send this x-ray scrap to the main wholesale plastic markets of big cities like Delhi. Mundka plastic scrap market is the wholesale x-ray market of Delhi, which is said to be the biggest plastic scrap market of Asia also. Here we have thousands of commission agents who sell the x-rays of their suppliers to the x-ray buyers in Delhi. And the other type of x-ray film scrap is which we get from x-ray clinics and hospitals. And, that type of x-ray films are called fresh x-rays(in the scrap language in India) this quality sells at a higher price than the one picked up by the rag pickers, because its sheets also sell at a higher price and it yields more silver than the other quality.
Now, comes the main question-how to recover silver from x-ray films? The answer is that first I would like to tell you how much silver we get from one kilogram of x-rays which is very important aspect of this business, then I will tell you about the silver extraction method from x-rays. The quality that we get from plastic dealers (or second x-ray we call it in the local scrap language) yields about 3 to 5 grams of silver per kilogram. And the fresh x-ray yields 6 to 9 grams of silver per kilogram.
As for silver extraction methods from x-rays, many methods can be used to extract silver from them. But Indian silver recovery units from x-rays use only one traditional method. And that is that they prepare a hot bath and immerse x-rays into it for about twelve hours, and then wash them. But in my opinion this method is very time consuming and creates pollution also. Instead of putting them in hot bath for such long hours, they can be treated with some chemicals to remove silver from them. And this could be even less time consuming and more economical in comparison to the traditional method used by these units.
Those who are interested to start this profitable business may contact us for very easy silver recovery methods from x-rays.
Another option is chemical precipitation with sodium sulfide, sodium borohydride or sodium dithionite. This can remove virtually 100 percent of the silver and most other metals from photographic effluent. With the addition of alkaline sodium sulfide and the resulting precipitation of silver sulfide, levels of soluble silver below 0.1 mg/L are possible. However, the more difficult part of the process is the separation of the precipitate from the liquid. Total silver levels of 0.5 to 1.0 mg/L are usually obtained due to filtration limitations. This process requires only a small capital expenditure and uses chemicals which are relatively inexpensive. It is not as widely used as the electrolytic or metallic replacement methods because of the inconvenience of handling large amounts of chemicals, the separation process required, and the problem of concentrating finely precipitated silver sulfide particles into a sludge that can be dried and refined. Also, careful pH control is required to avoid generation of highly toxic hydrogen sulfide gas.
Evaporation is another option for managing waste photographic solutions. The wastewaters are collected and heated to evaporate all liquids. The resulting sludge is collected in filter bags. These bags can be sent to a silver reclaimer for recovery. The major advantage of the evaporation technique is it achieves "zero" water discharge. This method would be useful to operations that do not have access to sewer connections or wastewater discharge. A disadvantage is that the organics and ammonia in the waste solution may also be evaporated, creating an air pollution problem. A charcoal air filter may be necessary to capture the organics. Filter purchase, disposal, and electrical power add to operating costs.
An alternative to onsite recovery is to collect the bleach/fix in containers and have a silver recovery contractor haul it away to reclaim the silver. For this service the photolab may be paid only about 20 percent of the silver value. This low percentage may be partially offset by its high silver recovery yield. Off site recovery can be done on a larger, more efficient scale than onsite recovery. The small quantity generator or the generator who desires a minimum commitment may find advantages in off site services.
Silver can be recovered from scrap film and paper by soaking the material in spent fixer solution. Once dissolved in the fixer, the silver can be recovered through any of the silver recovery processes used by the lab. There are also businesses which will buy scrap photographic film and paper from the photoprocessor.
There are additional actions that should be considered by photolabs to minimize waste.
- Inventory of chemicals should be controlled so that they are used before their expiration date.
- Solutions should be made up only in quantities to meet realistic processing volumes .
- Floating lids should be used on developer solution tanks to prevent evaporation and loss of potency.
- Silver recovery unit operating conditions should be carefully monitored and maintained within vendor specifications.
- Spent rinse water can be treated to restore purity and recycled for rinsing.
- The use of squeegees can reduce considerably the amount of liquid carried out of the solution by the film.
- Common sense safeguards such as keeping the mixing area clean, avoiding mixing of dry chemicals where airborne particles can cause contamination of other solutions, and use of separate mixing tanks for developers will minimize contamination or errors in mixing.
- Counter-current rinsing can be used to reduce water consumption. The basic concept of counter-current rinsing is to use the water from previous rinsings to contact the film at its most contaminated stage. Fresh water enters the process only at the final rinse stage.
- Bleach, bleach-fix, fix, and developer can be recycled and reused.
How to Extract Silver
- 1 Buy or build an electrolysis machine. This machine will help you to extract silver from your waste chemicals. You can find electrolysis machines in science supply stores, or you can make your own using a 12-volt charger and a rubber tub.
- 2 Find waste products to extract silver from. You can contact hospitals and imaging companies or place an ad in the local newspaper to collect used film rolls, X-rays and waste photographic chemicals. (Hypo and fixers both contain silver.) You can expect to generate about 0.254 grams of pure silver from each roll of 24-exposure film.
- 3 Set up your electrolysis station. If you have an electrolysis machine, you will fill the machine with a caustic solution and turn the machine on. If you are working with your homemade electrolysis machine, you will want to place hot water and your caustic solution into your rubber tub, place the charger plates in the solution and turn on the charger.
- 4 Prep your waste materials for electrolysis. If you are working with waste chemicals, you can just pour them into the electrolysis tank. However, if you are working with films, you will need to burn them before dumping their ashes in the tank.
- 5 Complete the process of electrolysis. You will dump your prepped waste materials into the electrolysis tank and allow the silver to be leached out by the chemical reactions created by the caustic solution and the electrical current. As the process progresses, you will notice silver flakes developing on the charger plates. This process can take anywhere from 30 minutes to several hours, depending on the voltage and caustic solution you are using. Don’t leave your electrolysis machine unattended during this process until you are familiar with how long it takes for the process to complete.
- 6 Collect your silver. Turn off the charger and remove the plates from the tank. Scrape the silver flakes from the charger plates onto a paper towel. Then use tweezers to move the silver flakes into a glass jar.
Silver extraction machine Manufacturers
www.youtube.com/watch?v=TaxGDwj1raY2 Dec 2011 - 1 min - Uploaded by uroojmetals
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