Aquaponics Fish Food Maker

Aquaponics Small Pellet Mill

credit to: GEMCO Energy

link: http://www.pellet-press.com/Products/Home-Use-Pellet-Mills.html


Introduction:

The home-use pellet mills also named flat die pellet mill, which was first invented in the early 20th century, is mainly for home use. Due to its lower cost and simple construction, this type has become the most widespread at residences and farms internationally. Thanks to our ISO 9000-certified factories, our well-trained engineers’ hard work, and our staff’s efficiency, we are able to provide some of the best design and installation services for wood pellet mills. Through years of experience in this industry we have acquired advanced technology for wood pelletization. The conditioning of raw materials is one of the most important steps in making wood pellets. Taking into account that wood waste is more difficult to compress than feedstuff, our machinery is able to adjust the material's moisture and size to make the finest biomass pellets. 

Key Parts of Home-use Pellet Mill:

Flat Die Flat die and Press Rollers Flat Die and Press Roller Installation


Scope of Application:

Our pellet mills are appropriate for compressing a variety of fibrous biomass material: corn (maize) husks, peanut shells, rice husks, corncobs, cotton seed hulls, wheat biproducts, sunflower seed shells, sawdust, cotton stalks, weeds, house refuse, waste plastic and similar types of factory waste. It is also suitable for raw materials which are otherwise difficult to pelletize owing to low bonding ratios. All of organic bacterial manure, organic fertilizer and compound fertilizer can be also pelletized by our machines at low temperatures.


Advantages of Home-use Pellet Mill:

1. Reliable, versatile and efficient
2. ISO and CE certified
3. Potential for 24 hour continuous running
4. Competitive price with excellent quality
5. Low energy consumption and less manpower
6. Durable spare parts
7. Simple, automated operation
8. Easy maintenance
9. Advanced technological design requiring less labor
10. Stable and durable functionality

Technical Data of the Electric Motor:

  

Model	Power(kW)	Output (kg/h)	Measurements (mm)	N.W/G.W (kg)
ZLSP 120B	3	60-100	750*320*680	80/100
ZLSP 150B	4	90-120	800*450*700	95/110
ZLSP 200B	7.5	200-300	1650*820*1200	200/230
ZLSP 230B	11	300-400	1050*480*930	290/320
ZLSP 260B	15	400-600	1180*540*1000	320/360
ZLSP 300B	22	600-800	1240*540*950	350/380

Aquaponics 'Claimed' Disadvantages

Claimed Disadvantages:
by Matthew McCarthy
credit to :sites.google.com/site/aquapanaponics/4-project-updates/advantagesanddisadvantagesofaquaponics

• Can be expensive to setup as the system requires pumps, tubing, and tanks/beds. This is certainly true though it doesn't necessarily need to be. A small backyard system purchased complete from an aquaponics retailer can cost over $2,000 installed and the larger backyard systems capable of feeding a family between $5,000 and $10,000. Though if you are willing to devote some (or a lot) of your own time and energy then I think similar systems could be built for 25-50% of these costs (this is my guestimate). Grow beds and fish tanks can often be obtained for free (in western countries) and gravel obtained from the local river, though components such as pumps and backup power supplies will still need to be purchased. 

• You need a green house to really have a good aquaponics system. I guess this depends on what type of climate you live in. A green house can be advantageous to provide heat in cold winters, protect the system from heavy rains and keep out pests. This is also true for soil based gardening.

• Setup requires technical knowledge of aquaponics systems and hence is possible to make mistakes. True - there are stories around of people who loose fish and give up on their aquaponics system early on and there is some knowledge required to establish the necessary bacteria within the system. In a lot of cases these failures are because systems have fish stocking rates that are to high. We have yet to stock our system with fish so I can not provide a lot of information from our personal experiences though the initial establishing of bacteria (known as cycling the system) was very simple and took a lot less time then the average system cycling time.

• Water needs to be constantly monitored to make sure the water quality is OK for fish. This is certainly the case during the first couple of months. After the system has matured water testing is usually carried out only once a week unless there are problems. Seems very complicated for the amount of fish I will get. Yes keeping a healthy environment for the fish is where most of the complexity lies within the system. Water needs to be free of toxins (especially ammonia and nitrite) and also have enough oxygen for the fish you are keeping. This can involve adding extra aeration sources and making partial water changes to improve water quality. Stocking fish at a lower density will in most cases reduce the pressures on a system and make it more tolerant to changing conditions and less likely to suffer from the above problems - though this means you will have less fish to eat.

• Aquaponics requires electric energy input to maintain and recycle water within the system. In most cases you will need to provide electricity to run a water pump and possibly aeration pumps as well. We run our 80w water pump for 5 minutes every hour to flood and drain our three grow bed buckets. As we currently run the pump day and night this amounts to 2 hours of usage a day - so similar to having a light in your house (with an old style bulb) on for the same length of time. We plan to add another three grow beds to the system so this will increase our electricity usage further. At this stage we have not made any attempt to optimize the flood/drain cycle so there may be opportunities to reduce the number of times the system is flooded each hour or to not run the system at night with little impact to plant growth. 

• If one or more components fail this could lead to the loss of fish and or plants. In this regard you are dependent on using reliable technology (and back up systems) to ensure that your fish, which require oxygen in the water, remain alive an healthy. Your plants are likely to be unaffected in the short term, as the growing medium will likely retain more then enough moisture, though if the fish are not provided enough oxygen, they can suffer and die. This is the same situation for aquaculture systems.

• You can't grow root crops. You can grow pretty much anything in an aquaponics system from fruit trees to root crops, though depending on the type of growing medium potatoes and carrots may grow into some weird shapes. Most people focus on growing leafy vegetables.

• Ok so you don't have to add fertilizer or nutrients but you do have to provide fish food. Yes you do, the fish eat the food and their waste is used to produce nutrients for the plants. Of course you also have to feed fish in an aquaculture system and in an aquaculture system fish waste is not used in such a productive way. Fish are some of the best animals at converting food into body mass (different fish species vary) and so are an efficient way of producing meat and protein. Most people buy commercially available fish food for their fish although many people supplement this feed by growing worms, duckweed and other plants and animals.