Advisory re Sunny Smile Food Corporation store which was on Taft Avenue near corner of P. Faura St., Manila. On Aygust 15, 2008, the fire exit door inside said store was padlocked, Also said store issued Sunny Smile Corporation official receipt No. 2256 dated Aug. 15, 2008 wherein the price for food was separate from the V.A.T. charge. Based on the Department of Trade and Industry, said issuance of a receipt, wherein the V.A.T. charge for food is separate from the price for food, is a violaion of the Price Tag Law. Also, there was a lane for senior citizens but said lane was closed at appoximately 10:05 A.M. on August 15, 2008.
web sites with free useful info:
searchenginewatch web site
http://searchenginewatch.com/
fightbac org web site
http://www.fightbac.org/
safe use of batteries_results of Google search re
http://www.hc-sc.gc.ca/cps-spc/pubs/cons/batteries-piles-eng.php
Batteries: Use Them Safely
Batteries contain harmful substances, such as acids and heavy metals. If batteries are not correctly used, stored and discarded, these harmful substances may leak, or the batteries may overheat or burst. Read and follow all instructions on the battery packaging.
Safety Tips
* Install batteries correctly by lining up the "+" signs on the battery and in the battery compartment of the product.
* Do not use different types of batteries together:
battery
o Do not mix old batteries with new ones.
o Do not mix alkaline, carbon, or other types of batteries.
o Do not mix rechargeable batteries with non-rechargeable batteries.
o Do not mix batteries of different name brands.
* Only recharge batteries that are clearly labelled as rechargeable. Use the
correct battery charger for the battery type.
* Remove batteries from an item that will not be used for a long time.
* Store batteries in the original packaging in a cool, dark place. Keep them away
from household chemicals and food.
* Keep batteries out of the reach of children.
* Do not place batteries where they can touch metal, such as loose change in a
pocket.
* Never discard batteries in a fire.
* Contact your local government to find out if they have a battery recycling
program.
Toys with Batteries
* Only adults should install batteries.
* Check that young children cannot open a toy's battery compartment.
* Make sure that a child does not take a battery-operated toy to bed.
* Call a doctor or a poison control centre right away if a child swallows a
battery.
For more information contact Product Safety, Health Canada: 1-866-662-066
http://www.mfe.govt.nz/publications/waste/use-disposal-batteries-jul06/index.html
The safe use and disposal of batteries
July 2006 Ref. INFO 161
The Ministry for the Environment is providing this fact sheet to help you with the safe use and disposal of batteries.
This fact sheet is part of the Disposal of unwanted electrical and electronic products fact sheet series.
The safe use and disposal of batteries
What is a battery?
A battery is a portable power source, converting chemical energy into electricity [Warmer Bulletin. (Jan 2000). Battery Recycling Information Sheet. Retrieved 30 May 2006, www.waste.nl/content/download/471/3776/file/ WB70-IS(batteries).pdf]. Within the last few decades there has been a dramatic growth in the number and diversity of electrical and electronic products that use batteries. Most homes will contain many pieces of equipment that depend on batteries to operate, for example, alarm clocks, toys, mobile phones, computers, watches, torches, power tools, radios and electric toothbrushes.
As the number of battery-powered products has risen so has the consumption of batteries. For more information on the different types of batteries, please see summary on page 3 or go to www.mfe.govt.nz/issues/waste/special/batteries/index.html
Why should we be concerned about battery disposal?
Although waste batteries are a relatively small amount of the solid waste stream, they are a concentrated source of toxic heavy metals such as mercury, lead and cadmium. The amount of these heavy metals may vary from battery to battery and some batteries are being manufactured without the addition of these heavy metals [Personal communication. Stephen Lardner, (22 May 2006) Energizer].
If batteries containing heavy metals are disposed of incorrectly, the metals can leach out and pollute the soil and groundwater, endangering humans and wildlife. Long-term exposure to cadmium, a known human carcinogen, can cause liver and lung disease. Mercury can cause damage to the human brain, spinal system, kidneys and liver. Sulphuric acid in lead acid batteries can cause severe skin burns or irritation upon contact. Consumers can help protect themselves and the environment by correctly disposing of all types of batteries.
Batteries contain a range of metals that can be reused as secondary raw materials. Reusing these resources reduces the environmental impact of extracting them as primary raw materials.
How should batteries be disposed of safely?
There are well-established methods for recycling most batteries containing lead, nickel cadmium, nickel-metal hydride and mercury. Both non-rechargeable and rechargeable batteries can be recycled and, wherever possible, all should be disposed of safely.
For information on safe disposal and recycling of mobile phone batteries please see the fact sheet on mobile phones www.mfe.govt.nz/issues/waste/special/e-waste/index.html
What else can you do?
* Plug appliances into the mains power supply as often as you can.
* Use rechargeable batteries and a battery charger rather than non-rechargeable batteries. Not only is this environmentally preferable, it also saves energy because, according to the UK organisation Wastewatch [Wastewatch (updated July 2005). Battery Recycling Information Sheet.
Retrieved 25 May 2006, from http://www.wasteonline.org.uk/resources/InformationSheets/Batteries.pdf], the energy needed to manufacture a battery is on average 50 times greater than the energy it provides. This will also save you money in the long run.
However, note that rechargeable batteries are unsuitable for smoke alarms as they tend to self discharge, preventing the alarm from warning when the battery power is low [Personal communication. Stephen Lardner, (22 May 2006) Energizer]. Nearly all other batteryoperated equipment can accept rechargeable batteries.
* If you have to use single-use batteries, choose brands with the longest life and, whenever possible, purchase low-mercury or zero-mercury batteries.
* When buying a new product or appliance, choose models that can use power derived from alternative energy sources such as solar-powered calculators or wind-up clocks and radios.
* Participate in local authority battery collection schemes, such as the Hazmobile, or drop off at your local transfer station. If your local council does not currently provide a battery collection scheme, find out if it is planning to do so in the future.
Type of battery Common uses Hazardous component Disposal recycling options
Wet Cell
Lead-acid batteries* Electrical energy supply for vehicles including cars, trucks, boats, tractors and motorcycles. Small sealed lead-acid batteries are used for emergency lighting and uninterruptible power supplies. Sulphuric acid and lead Recycle – most petrol stations and garages accept old car batteries and council waste facilities have collection points for lead-acid batteries
Dry Cell: Non-rechargeable – single use
Zinc carbon Torches, clocks, shavers, radios, toys and smoke alarms Zinc Not classed as a hazardous waste – okay to dispose of with household waste
Zinc chloride Similar to above Zinc Not classed as a hazardous waste – okay to dispose of with household waste
Alkaline manganese Personal stereos and radiocassette players Manganese (note some older alkaline batteries contain mercury*) Not classed as a hazardous waste – okay to dispose of with household waste
NB: Dry cell non-rechargeable batteries come in “AA”, “AAA”, “C”, “D”, lantern and miniature watch sizes.
Primary button cells
Mercuric oxide* Hearing aids, pacemakers and cameras Mercury Recycle at council transfer station
Zinc air Hearing aids, pagers and cameras Zinc Preference is to recycle at the council transfer station, if facilities are available
Silver oxide Calculators, watches and cameras Silver Preference is to recycle at the council transfer station, if facilities are available
Lithium Computers, watches and cameras Lithium (explosive and flammable) Preference is to recycle at the council transfer station, if facilities are available
Dry cell rechargeable – secondary batteries
Nickel cadmium* (NiCd) Mobile phones, cordless power tools, laptop computers, shavers, motorised toys, personal stereos Cadmium Recycle at council transfer station
Nickel-metal hydride (NiMH) Alternative to above. Longer life than NiCd batteries Nickel Preference is to recycle at the council transfer station, if facilities are available
Lithium ion (Li-ion) As above. Greater energy storage capacity than NiCd or NiMH Lithium Preference is to recycle at the council transfer station, if facilities are available
Table Note: Batteries that are asterisked* in the table are hazardous on the New Zealand Waste List. They include lead-acid batteries*, nickel cadmium batteries* and batteries containing mercury*. In cases where wastes are asterisked* as hazardous, the Ministry for the Environment recommends that landfill operators and their respective consenting authority utilise Hazardous Waste Guidelines: Landfill Waste Acceptance Criteria and Landfill Classification, to ensure correct disposal and/or treatment.
Table adapted from New York State Department of Environmental Conservation. Household Battery Fact Sheet. Retrieved on 10 March 2006, from www.dec.statenz. us/website/dshm/redrecy/battery.htm and information from Recycling Batteries. Retrieved on 10 March 2006, from www.enfo.ie/leaflets/as25.htm
Types of batteries
[Information from Inform: Strategies for a better environment. Community Waste Prevention Toolkit: Battery Fact Sheet. Retrieved on 12 December 2005, from www.informinc.org/fact_CWPbattery.php]
The basic component of any battery is a cell (or a series of connected cells) in which electrodes react with chemicals to produce electricity.
Alkaline
A primary battery (non-rechargeable) that is often used in electronics applications requiring heavy currents for long periods of time (ie cd players, radios, etc.). Alkaline batteries can deliver 50 to 100 percent more total energy than conventional zinc carbon batteries of the same size, hence their popularity in consumer applications. (Note some older batteries can be called alkaline batteries but contain mercury.)
Zinc Carbon
A primary battery (non-rechargeable) that is commonly used in low-drain consumer applications (ie clocks, calculators, garage door openers, etc.). Available in the same sizes as the alkaline and manganese dioxide (“AA”, “AAA”, 9-volt, “C” and “D”), zinc carbon are one of the most widely used, dry primary batteries because of their low cost and reliable performance.
Lithium
A primary battery (non-rechargeable) that is quickly entering mainstream electronic designs, particularly in consumer, portable equipment and non-volatile memory back-up applications where small size, long life and low cost are the primary requirements. Lithium batteries have superior cold temperature performance and a shelf life of five to 10 years.
Lithium Ion (Li-ion)
One of the newer rechargeable battery technologies, Li-ion batteries can deliver 40 percent more capacity than comparably sized nickel cadmium batteries and are one of the lightest rechargeable batteries currently available. Li-ion batteries are the batteries of choice in notebook computers, wireless telephones and many camcorder models.
Lead Acid
Still the most popular battery used today, the lead acid battery’s main application is in the automobile industry, although it has a growing number of other applications. Its advantages are low cost, high voltage per cell and good capacity life. Its disadvantages are poor low temperature characteristics, that it is relatively heavy, and that it cannot be left in a discharged state for too long without being damaged. Related batteries include Absorbent Glass Matt (AGM), Gel/Gel Cell and Sealed Lead Acid.
Nickel Cadmium (NiCd)
The nickel cadmium is one of the most proven and historically most widely used rechargeable batteries. It is very dependable and “robust” but has relatively low capacity when compared to other rechargeable systems. Very good high rate discharge capabilities make it very popular in high-drain applications such as power tools.
Nickel-Metal Hydride (NiMH)
Interchangeable with most nickel cadmium batteries, nickel-metal hydride batteries generally deliver 10 to 25 percent greater capacity than nickel cadmium batteries and are more environmentally friendly since they do not contain cadmium. They are typically used in many wireless phones and camcorders.
Silver Oxide
A primary battery (non-rechargeable) that is a major contributor to miniature power sources, and well suited for hearing aids, instruments, photoelectric exposure devices and electronic watches. These cells are primarily made in the smaller “button” sizes.
Zinc Air
A primary battery (non-rechargeable) that was commonly used for applications such as watches and hearing aids. In relation to their physical size, zinc air batteries store more energy per unit of weight (in terms of 22 0 W h/kg) than any other primary type.
Glossary of terms
Primary battery
A battery that is not intended to be recharged and discarded when it has delivered all of its electrical energy.
Rechargeable battery
A galvanic battery that, after discharge, can be restored to the fully charged state by the passage of an electrical current through the cell in the opposite direction to that of discharge.
Recondition
One or more deep discharge cycles below 1.0 volt/cell at a very low, controlled current. Recondition helps to revert large crystals to small, desirable-sized crystals, often restoring the battery to its full capacity.
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