Food Waste Compost Bio Bags 25 ct by BioBag
BioBag - Food Waste BioBags - 3 Gallons
BioBag kitchen waste bags are primarily used for the collection of food scraps and other biodegradable waste for home or community composting.
BioBag's popular BioBag Food Waste 3 gallon size is designed to fit most kitchen countertop composting pails. Using BioBags takes the mess out of the messiest job, cleaning out the bucket! BioBags can also help reduce odor and bacterial build-up during food scrap collection.
BioBag Food Waste 3 gallon bags are also great for refrigerated food storage. One feature of the BioBag is that it “breathes” without leaking. This unique benefit allows heat and moisture to evaporate, which keeps food “fresher” longer. Try BioBags for storing your fruits and vegetables. Store your vegetables to maintain freshness, and then use the same bag to line your composting pail. BioBag calls it “use and use again”. Their 3 gallon size can also be used for smaller bathroom waste cans.
BioBag and the Environment
The material Mater-Bi - What is it?
Mater-Bi is produced by Novamont, an Italian research company dedicated to environmental alternatives to polyethylene-based plastics. Mater-Bi is the first completely biodegradable and compostable bio-polymer ever invented. The processes are protected by more than 50 patents.
Mater-Bi really is a dream come true. It is a material that serves Sustainable Development, it combines environmental demands with those of Agriculture and Industry. The bioplastic developed by Novamont is the real response to the demand for convenience goods that have a small environmental impact. It comes from renewable resources of agricultural origin, it reduces greenhouse gas emissions, and the consumption of energy and non renewable resources, and it completes a virtuous circle: the raw materials of agricultural origin return to the earth through processes of biodegradation and composting, without releasing pollutants.
Under extremely clear and strict regulations on environmental matters (EN 13432 ) Novamont and Mater-Bi are exemplary models, because of the certifications obtained, the analysis and control instruments used, and the guiding role in numerous national and international initiatives, whose aim was increasingly to clarify and define the most suitable policies for safeguarding the environment.
Mater-Bi comes from renewable raw materials of agricultural origin and from non-genetically modified starch. Novamont manufactures and sells various lines of biopolymers for a variety of manufacturing processes, all with the Mater-Bi trademark. The material is available in granular form.
All of the Mater-Bi grades:
- are completely biodegradable in different environments: in composting, in the soil, in fresh and in salt water;
- can be worked using the same processes as for traditional plastics and with similar output;
- can be printed on, using normal inks and printing techniques, without the need for crown treatment;
- can be colored in bulk, using biodegradable Master-batches;
are intrinsically anti-static;
- can be sterilized using gamma rays.
Biodegradability is characteristic of natural substances and materials of being assimilated by micro-organisms, and thus introduced into the natural cycles. In effect, it is a concept that is familiar to everyone.
When natural organic materials go into the ground, they tend to decompose progressively, to disappear. This phenomenon is very important for the environment, which has to get rid of waste to make room for new life. Trees, plants and algae, meaning photosynthetic organisms, absorb carbon dioxide from the atmosphere and, with the power of the sun, the inexhaustible source of energy, use it to synthesize sugars, and a whole range of other substances present in Nature.
The flow of substances and energy passes along the food chain from the plants to the herbivores, and from these, to carnivores. However, this mechanism would quickly become blocked if the opposite process did not exist, that is, if it was not possible to release carbon dioxide from organic material. So, in natural equilibrium, the process of biodegradation is as important as that of photosynthesis, of which it is both the outcome and the starting point. An important role is played in biodegradation by micro-organisms, which are present in every environment, and which are fed by organic waste. Thus, organic material is transformed again into carbon dioxide, thereby completing the natural cycle.
Composting is the transformation of organic waste into compost, which is obtained in special installations that guarantee correct management of the process. However, composting is based on a spontaneous phenomenon. In the countryside, you may have seen piles of organic material (waste, animal droppings, sawdust, wood shavings, etc.) produce heat and give off steam, as though it were burning without a flame. In fact, the material is not burning, even though the phenomenon that lies behind the production of heat is not so different from combustion. A pile of organic waste is attractive to micro-organisms that are normally present in the environment. If the water content is sufficiently high, the micro-organisms start to consume the nutritional substances, that is, to degrade the organic molecules, producing carbon dioxide, water and heat (biodegradation). At the end of the process, the initial waste is transformed into a substance called compost, which looks and smells like fertile soil, and is sanitized and stable, insofar as it contains no pathogenic microbes or material that decomposes. In the composting plants, this phenomenon is controlled and optimized in order to achieve a high conversion speed, control of the effluent, control of the quality of the final compost, etc.
The solution for the compostable fraction of M.S.W. (Municipal Solid Waste)
Materials, such as kitchen scraps, grass cuttings, waste from canteens, restaurants, etc., contain a lot of water, and decompose quickly. Consequently, they are not suitable for recovering energy by incineration, because the heat is lost in evaporating the water instead of producing electricity. Furthermore, in a landfill, the wet organic materials are the source of considerable environmental problems, such as the production of methane, and possible contamination of the water tables with contaminated percolates. In contrast, treatment of the organic part of solid urban waste (also known as the "wet part") by composting has extremely positive aspects. The production of compost and its use in agriculture completes the environmental cycle broken by urbanization, by the depopulation of the countryside, and by the adoption of intensive farming practices based on the use of inorganic fertilizers in place of the manure used in the past. After being taken from the fields to our supermarkets, the organic material returns to its place of origin in the form of compost, that is, a substance that maintains fertility, prevents erosion of the soil, reduces the washing away of inorganic fertilizers, and blocks the onset of micro-organisms that are pathogenic to plants, just to mention some of the positive aspects found with the use of compost.
Composting: Yes To Bioplastics
Composting is currently applied to selected waste that contains only biodegradable organic material. Traditional plastics are banned from composting because they resist degradation and cause contamination. In contrast, biodegradable plastics are allowed, but only if they satisfy criteria established by norms that define compostable materials. Non-compatible materials were composted in the past in the absence of rules and in the anarchy of the definitions and test methods. This caused a lot of harm, especially to the trust of users, and of the technicians responsible for the composting plants.
You're not going to get a lot of technical rhetoric here, just some observations based on a few facts and a little common sense.
BioBag have developed an alternative to polyethylene/polypropylene based plastic bags. Their products are made primarily from substances obtained from plants such as cornstarch, vegetable oils and compostable polymers from both renewable raw materials and fossil raw materials. Their bags and films are certified compostable. Regular plastic bags take a lifetime, often over 100 years, to begin to degrade. Regular polyethylene/polypropylene based plastic cannot be composted. Less than 2% of plastic bags ever get recycled and those that are seldom ever become plastic bags again. Plastic bags litter their streets and waterways.
However, BioBag are not at total odds with the plastic industry. BioBag understand how this industry blossomed as an alternative solution to products made from metal and wood. Plastic was cheaper, lighter, easier to mold and rust resistant. Plastic was also durable and long-lasting. It was never meant to "go away." The plastic industry is very good at producing things that are meant to last.
Obviously, plastic bags never fit the intent of plastic usage. They are supposed to be "disposable". They don't need a life-span of more than a year, two at the most. It's sad that the plastic industry has spent more on their image than on the problem. Plastic bags remain inexpensive only because the manufacturer's responsibility ends at point of purchase. The rest of the tab is picked up by you and me in their tax base.
Some plastic manufacturers are now producing blends of polyethylene and additives that help the bags break down a little faster, but the process leaves pieces of plastic debris that are not biodegradable to ASTM D6400 certification and do not compost. In their view, the claim of biodegradability offered by these products is misleading to many consumers and a BioBagak attempt to find compromise with nature.
BioBag believe there is no compromise. BioBag believe BioBag have found the answer. With your support, BioBag can achieve their mission of being the product of choice for organic waste disposal. BioBag can change the world, without changing the earth.
BioBag is the world’s largest brand of certified compostable bags and films made from the material, Mater-Bi. All of their products contain GMO free starch, compostable polymer and other renewable resources. No polyethylene is used in the production process. BioBag products meet ASTM D6400 specifications and California Law requirements. They will never compromise our earth or their standards. They invite you to review the numerous certifications we have been awarded and the quality of the Mater-Bi product.