ZEOLIT, SI MURAH BERKHASIAT TINGGI UNTUK KEBUN SAWIT

Penelitian aplikasi zeolit dilakukan pada pembibitan kelapa sawit untuk mengetahui pengaruhnya terhadap medium tanam dan pertumbuhan serta serapan hara bibit kelapa sawit ....Readmore

MANFAAT ZEOLITE PADA TANAH, TANAMAN, TERNAK DAN TAMBAK

Dengan majunya penemuan teknologi, zeolite disebut dengan nama mineral serba guna, karena fungsinya yang sangat beraneka ragam, .... Readmore

NATURAL ZEOLITE FOR RADIATION PROTECTION

Toxic nuclear radiation is being spread all around our world due to many reactors malfunctioning or spilling their deadly load into the environment. Radiation can .... Readmore

MEMBUAT FILTER AIR SEDERHANA DENGAN ZEOLITE

Air merupakan kebutuhan yang sangat vital bagi kehidupan manusia. Karena itu jika kebutuhan akan air tersebut belum tercukupi maka dapat memberikan dampak .... Readmore

TZP Plus (Soil Conditioner)

Solusi memperbaiki lahan, meningkatkan produksi dan kualitas hasil pertanian. Terdaftar.....Readmore.


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Tuesday, 17 July 2012

Siemens Innovative Zeolitic Drying System

An innovative zeolitic drying system from Siemens has won the Award for Climate Protection and the Environment in the category for product and service innovations in the field of climate protection. Equipped with this system, the Siemens speed Matic dishwasher is around 20% more efficient than appliances in the highest energy-efficiency category. Its minimal water consumption, 10 instead of 14 liters per cycle, also sets a new record. Engineers at BSH Bosch und Siemens Hausgeräte are the first to take this completely new technology to the mass-production stage as well. Although it is only featured in top-of-the-range models at present, there are already plans to introduce it successively in mid-range models.

Inside the dishwasher are special minerals that generate supplementary heat. This shortens the program at 50°C to just under two hours, which is around 30 minutes less than is needed by conventional dishwashers. As a result, the speedMatic is also the fastest dishwasher in the highest efficiency category. This supplementary heat is generated by zeolites – aluminosilicate minerals with a very large surface area and microporous structure. The dishwasher exploits the ability of such minerals to absorb up to 40% of their dry weight in water and, in the process, give off heat. By the same token, they release this water when heated.

During the drying cycle, warm, moist air is fed into a container under the dishwasher chamber, which contains 1.15 kilograms of small white zeolitic granules. These absorb the moisture and release hot, dry air, thus substantially shortening the drying cycle. In the next washing cycle, the granules are heated to remove the moisture, thereby regenerating them. The zeolithes stay in the dishwasher during its whole lifetime.


Thanks to its increased efficiency, the new dishwasher helps save energy and thus reduce CO2 emissions. If all dishwashers with an energy consumption of over 1.3 kWh per cycle were replaced by ultra-efficient appliances with zeolitic drying, the savings in Germany alone would amount to over 1.2 million metric tons of CO2 a year. That corresponds to the amount of C02 produced by approximately 600,000 passenger cars, each driving 15,000 kilometers a year.

Sources : http://design.kitchensatlanta.com

Sunday, 15 July 2012

How to Use Zeolite for Adsorbent Co2

By Vincent Madrone, eHow Contributor CO2 is potentially toxic.

Zeolites are micro crystalline structures made from silicon, aluminum and oxygen that are highly porous and are able to absorb moisture. For this reason, zeolites are often used to help food stay fresh. Zeolites are commonly added to packed foods in small breathable packets that soak up any moisture that may be present or may accumulate in the product. This keeps the product fresh and dry and helps to prevent damage and degeneration from moisture. Zeolites are also able to absorb gaseous compounds like carbon dioxide (CO2), and can be used to remove or prevent CO2 contamination.

Instructions 

  1. Order zeolites from a supplier. Online vendors sell zeolites in different sizes of granulation, from 200 mesh (smallest) to minus 6 mesh (largest). The size of the granulation is up to you and how you are going to use the zeolites to capture CO2. For adsorption, the smaller sized granules are best but are harder to track. 
  2.  Place zeolites in the product or area that you want to clear of CO2 contamination. If you are using the zeolites to remove CO2 from the air, as in a garage or other closed space, hang the crystals from the roof in the middle of the room. Keep them in a highly breathable container. If clearing soil or other ground space, place the zeolites directly on top of the contaminated area so they can soak up the CO2
  3. Change out the zeolites as soon as they become soiled. The zeolites have a set adsorption capacity that cannot be exceeded. Adsorption is the binding of molecules to a particular surface. If the crystals or its packaging become browned or dirty looking, exchange with fresh crystals or a fresh pack. In areas of high CO2 contamination, change zeolites every 24 hours to maximize their effectiveness. 
  4. Use zeolites in packaging. To use zeolites to keep food or other organic products fresh, add a small sealed packet of zeolites to the product before packaging it. CO2 gases often cause packages to expand; the zeolite will adsorb the CO2 and prevent this from happening. 
 Source : http://www.ehow.com

Wednesday, 16 May 2012

Organic fertilizer options available to all



Organic Fertilizer
The continued volatility in price of fertilizer, combined with heightened regulatory scrutiny, will leave many growers scratching their heads as to which way to go to fertilize their 2010 crops.

Conventional farmers and organic farmers share a need for a low cost, highly efficient source of nutrition for their crops. Many of the fertilizers that meet organic certification may also work for conventional farmers who are looking for a low-cost, readily available source of N-P-K for their farms.

Two broad choices are available for conventional growers, organic and synthetic. For organic farmers, only the organic option is available.
Jeremy DeLisle, an Extension agent in western North Carolina, speaking at the recent North Carolina-South Carolina Fruit and Vegetable Growers annual meeting, says, “Transitioning to organic farming produces some soil fertility challenges that transcend the use of conventional bulk fertilizers to achieve optimum soil fertility.”

Organic farmers can and do use composts of plant and animal materials and uncomposted plant materials are allowed under Federal NOP (National Organic Program) guidelines. Raw manure can be used, but must be applied at least 120 days prior to harvesting most crops.

The most commonly shared manure-based fertilizer used by both conventional and organic farmers is chicken litter. Nutrient component varies widely from one chicken farm to another and there is variation from one poultry house to another on the same farm.

A typical load of chicken litter might contain something close to 75 pounds of nitrogen, 27 pounds of phosphorus and 33 pounds of potassium per ton. DeLisle gave an example showing that a ton of broiler litter from a North Carolina poultry house could contribute 15 pounds of ammonium, which would be available immediately for plant uptake.

The example might also contain 60 pounds of organic nitrogen, but only 30 percent or about 18 pounds of N was available to plants over the course of the first season. The sample contained 21 pounds of phosphorus and 26 pounds of potassium, of which a producer should expect approximately 70 percent to be available in year one. DeLisle stressed that having a waste analysis performed on the sample is the key to managing applications properly.

Dairy and beef manure are also commonly used fertilizer sources. Dairy manure, like chicken litter will vary in nutrient makeup, but will typically contain 10-15 pounds of NP and K per ton. Beef manure is consistently higher in nutrient content than dairy manure with 20-25 pounds of nitrogen and phosphorus and 30 pounds of potassium. One of the more popular families of fertilizers used by organic farmers is plant-based fertilizers, primarily plant meals. All of these materials are low in N-P-K content and would not be sufficient as a stand alone fertilizer in either organic or conventional crops.

Soybean meal has 6-1-4.2 percent, respectively, nitrogen, phosphorus and potassium. Cottonseed meal is 6-2-1, alfalfa meal is 4-3-1 and kelp meal is 1-0-2. Any of these meals can be used on organic crops, regardless of whether they came from plants grown certified organic. However, none of these meals can be used on certified organic crops, if they come from GMO crops.

Animal-based fertilizers available to both organic and conventional growers include blood meal, bone meal, feather meal and fish meal. Of these, feather meal (13-0-0) is highest in nitrogen and bone meal (1-13-0) is highest in phosphorus. Fish meal has a 9-3-1 percent NPK makeup and blood meal is 12-0-0.

Like cottonseed meal, these animal-based fertilizers will be slow release and the nitrogen component will not be immediately available to crops. Conventional growers using these products as fertilizer supplements or boosts, and organic growers using animal-based fertilizers, need to understand these materials are best used when combined with cover crops, rotation strategies and other cultural practices that take advantage of their slow release characteristics, DeLisle says.

Mineral-based fertilizers that are approved for use on organic crops are much closer to the fertilizers used on conventional farms. Organic growers need to double check these materials to be sure they are on the national list of approved chemicals for certified organic farms, DeLisle stresses. Even though these products may have on the label OMRI-approved, occasionally these materials don’t make it onto the national list, he adds. OMRI is Organic Materials Review Institute. The OMRI Products List is a directory of all products OMRI has determined are allowed for use in organic production, processing, and handling. Only products that have passed this review are included in the OMRI Products List and can display OMRI Listed Seal — the organization’s registered certification mark.

Sodium nitrate (16-0-0) is available to organic farms, but can only comprise 20 percent of the total N used in the certified organic system. Also known as Bulldog Soda, this product can burn plants, but is quickly and readily available to plants. DeLisle points out that this material, like many of the organically approved products, is difficult to find these days.

Rock phosphate is another option. It is low in phosphorus (0-3-0), but has a high (23 percent) calcium content. Likewise, potassium sulphate is high in potassium (0-0-50), but also has a high (18 percent) sulphur content. For specific crops under specific soil conditions these materials may be good options for either conventional or organic farms.

“For growers considering transitioning to certified organic production, I sometimes recommend they get soil testing done and apply conventional fertilizer to get the soil up to where it needs to be, then let it stay out of production for the three-year requirement to meet organic certification. In some cases investing a fourth year is cheaper than slowly building soil nutrition up with fertilizers approved for organic production,” DeLisle says.

Greensand is another option for both organic and conventional farmers because it has a good concentration of a number of micronutrients. It has good potassium content (0-0-7) and is a good source of slow release calcium. Greensand is a sand or sediment that consists of dark greenish grains of glauconite that is usually mixed with clay or sand. It is a natural mineral that opens up tight soil and binds loose soil. It is mined most intensively in New Jersey, Arkansas and Texas.

Gypsum (0-0-0) is also a good source of calcium (23 percent) and sulphur (17 percent). Gypsum from discarded building material and other sources is commonly used in the upper Southeast as a supplemental calcium source for Virginia type peanuts. Compost is a commonly used practice for small acreage organic farms. It is low in nutrient value, but on both conventional or organic farms, it brings in a good source of micronutrients, building soil biological activity and increase cation exchange capacity, according to DeLisle. Cation exchange capability is the soil particle’s ability to hold on to the nutrients needed by plants. Compost is sort of like a glue to bind nutrients to the soil, DeLisle explains.

Among the numerous data on soil test samples, most experts agree cation exchange is the least understood. Any element with a positive charge is called a cation and, for agricultural purposes, it refers to the basic cations, calcium (Ca+2), magnesium (Mg+2), potassium (K+1) and sodium (Na+1) and the acidic cations, hydrogen (H+1) and aluminum (Al+3). The CEC refers to the total amount of these positively charged elements that a soil can hold.

The cations are held on "exchange sites" where one cation can be exchanged for the same type or a different cation. The CEC is expressed in milliequivalents per 100 grams (meq/100g) of soil. The larger this number, the more cations the soil can hold. A clay soil will have a larger CEC than a sandy soil. In the Southeast, where there are highly weathered soils, the dominant clay type is kaolinite, which has very little capacity to hold cations compared to other clays.

In some areas of the Southeast one or more of these organic sources of fertilizer are available to farmers. With today’s volatility in fertilizer costs and other input costs, these may be good options for conventional farmers to consider.

Source : http://southeastfarmpress.com

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