Tribest SoloStar II Multi-Purpose Juicer for Wheatgrass and more Review

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(More customer reviews)Drawbacks
My SoloStar II has been plagued by problems. In less than a year, many of the outer parts have broken. The juicing screen ($35.00) has broken three times. When the juicing screens break, it happens before the pulp container is even full. As a result, the auger and juicing screen need to be cleaned constantly within a session. The screen locking cap ($5.80) has also broken. Speaking of the auger, even that cracked ($35.00). Several times, I e-mailed customer service about such issues with no reply. When I called, Tribest Life promptly sent out free replacement parts.
Benefits
When the parts aren't breaking, the SoloStar II works very well. It's simple to assembly and operate. The actual extraction process seems efficient. Cleaning is a breeze since most of the parts rinse under the sink. The only cleaning challenge is the juicing screen. Along these lines, the modified toothbrush that comes with the unit is worthless. I now use a steel auto detailing brush that does a great job. The SoloStar II is visually pleasing and the unit operates at a good volume. I was inspired to purchase the juicer after watching the online video as hosted on the Tribest Life web page. It accompanies the juicer in VHS format. Being a first time juicer, this was extremely helpful.
In conclusion, there are benefits and drawbacks to the SoloStar II. While it may have been a good introduction to the juicing world, I definitely look forward to an upgrade. Talking to juicers (people who juice, not the machines;), it seems that you really need to spend around $350.00-$400.00 before getting a quality juicer. Should you decide to purchase the SoloStar II, make certain that you send in the warranty/registration card. That was essential in getting parts replaced at no charge.

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SoloStar II Juicer Single Gear Wheatgrass, Fruit and Vegetable Juicer Features & SpecificationsSolo Star 2 Juicer Single Gear Wheatgrass, Fruit and Vegetable Juicer The SoloStar II is a slow rotation, dual-stage juicer which provides less oxidation from the juice it produces and helps keeps living enzymes and nutrients in tact.Using a slow rotation speed of 80 RPM it produces little to no heat buildup.This is a great multi-purpose juicer for wheatgrass,fruits, vegetables pine needles and more.The SoloStar II has a much larger single auger than other juicers which helps produce greater juice yields with less pulp. The taste of the juice is excellent too!The Solo Star is made by Tribest who also makes other juicers such as theCitriStar andGreen Star. Dual Stage JuicingFilters out juice during initial crushing before it is soaked into the pulpSqueezes the remaining pulp again to ensure complete juicingFeatures:Juice all types of fruit!Juice Wheatgrass!Make frozen fruit sorbetsMake healthy baby foodMake pasta easily - included accessories!Mince, grind and chop!Save time by preparing garlic and other spices with the SoloStarMilling!Make rice cakes!UL and CL ApprovedAttachments Included:Spaghetti NozzleFettuccini NozzleHomogenizing NozzleHomogenizing ScreenPlungerCleaning brushHand SieveJuice CatcherSpecifications: ModelSoloStar IIWeight19 lbs.DimensionsDepth18.5"Width:8"Height:11.75"Voltage120 V / AC / 60HzPower180 WMotorSingle Phase Induction MotorAuger Speed80 RPMExtraction MethodSingle GearRPMApprox 4 HP at ShaftPlunger / PusherPlasticWarranty5 Years Warranty on Parts and Motor

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Omega Vert Hd Vrt350 Juicer Review

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(More customer reviews)Ok, I hardly ever write reviews, but this juicer deserves the accolades I'm about to bestow upon it. I'm a heavy juicer, and go in fits and starts with heavy juicing and then no juicing. About a year or two ago I purchased the Omega 8003 juicer and have been happy with it. The main drawbacks to that juicer are its small diameter feed slot and the fact that you really have to "push" stuff along with the pusher. For the last couple of weeks I've been heavily juicing with that machine. My review is really from the perspective of what I'm coming from.
First, I did a lot of research on juicers (again). Although I looked at the Jack La Lane juicer which is a high speed juicer (and much cheaper), I found myself coming back to the slow speed for the same reasons that drove me to my original Omega 8003, namely, keeping the enzymes in tack, better taste (less watery) and a better yield (especially with organic fruit being so costly). It was taking me about 25 minutes to juice with the Omega 8003 including cleanup, which is a bit lengthy for a glass of juice. Now, in defense of the 8003, it does a really good job of juicing, pulp is dry and it makes a good juice. However, I tend to make really large glasses of juice (usually at least 24 oz) and it requires everything to be cut up into small enough pieces to fit in the small feeder. Apples take forever, and even feeding things like grapes you still have to push a few in, then mush it down, few more, mush it down etc etc. Process takes a while.
So my new VRT HD arrived today. Forget what HD stands for, but apparently the only difference is the strength of the inner filter/strainer, which I saw some reviews of cracking. I plan to work this thing like a mule, so I wanted the best.
Setup was super easy, all the parts were easy to figure out, never needed to read an instruction and I was off an juicing in minutes. I've done 4 juices today, so far using all fruits (apples, pineapple, carrots, grapes, pomegranate and kiwi). All I can say is WOW!!!
What I love so far: First and foremost, because its a vertical cylinder that masticates, I just drop in the fruit, say a carrot, and it grinds it right up. I can't cut off the tops fast enough. It just eats em right up. With the 8003, I have to jam and shove those things down into the screw. That alone is worth the price of admission. Just drop em in and watch em go. LOVE IT!! (can you tell I'm excited).
Everything else got chewed up just as well. I've used a lot of fleshy fruit today, and did have one issue on my second juice. My pineapple and grapes got clogged on the little outlet where the fiber ejects. I think that was my fault however because I think I got over zealous and excited. I slowed down my feed a bit on the subsequent juicing's and had zero issues.
Another feature I REALLY like is the self cleaning feature. A plastic thingy swirls around the outside of the screen/filter while your juicing and cleans the screen. In my 8003, grapes and other fleshy fruit really tend to clog the screen up, but I have had no issues all day. That screen comes out almost as clean as it went in.
I do get foam floating on top of my drink. I'd actually say a bit less than my 8003, which surprised me because in a web demo head to head with another 800? unit I watched on youtube it looked like the VRT produced a bit MORE foam, but this is not my experience. It's not a lot of foam, but I hate foam. Nothing that a quick skim with a spoon doesn't rectify. Pure tasty juice underneath.
Lastly, I was told in same said video that cleanup would take twice as long. I found that to be true for the first cleanup (not knowing what I was doing) but so far, my cleanup has maybe taken an additional minute. I find it quite simple actually, and once you figure out the pieces (not difficult), it actually seems little harder than my 8003.
All in all I absolutely LOVE this juicer. I can juice 24 or more ounces of juice, from opening the fridge door to putting the pieces back into the cabinet in under 10 minutes. The top feeder is so much wider which allows for much bigger pieces, which means a lot less cutting and preparation. Once it goes in, it self feeds, which means your not standing there mushing stuff down. Juice tastes great, fiber comes out reasonably dry, and clean up is simple enough.
It's only been a day, but what a great day its been.

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Specs are the same as the VRT 330, except.... ?Fine hole Strainer/ screen material: Ultem (large hole screen material unchanged)?Color: Silver and black?10 year warranty (unchanged)What's in the Box Omega VRT330 motor base Fine dual-stage juicing screen Coarse dual-stage screen Bowl with attached extraction plug GE Ultem Auger Self-cleaning screen holder 2 50-ounce juicing cups Tamper Brush Instruction manual

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Sunforce 60032 30 Amp Digital Charge Controller Review

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(More customer reviews)If you've read the reviews, by now the acronym MPPT has shown up more than once. If you know what that means, read no further as this is not too entertaining. If you would like to know the difference in MPPT and non-MPPT solar regulators, and can tolerate some basic math or skim through it, read on and I can explain why this non-MPPT regulator will do the job, just not the BEST job possible.
MPPT stands for Maximum Power Point Tracking, which sounds like a good thing, and it definitly is a must for large house size systems, but what exactly is it? Simply put MPPT finds YOUR solar array's Maximum amount of power for a given condition (full sun/overcast/panel tilt). It is always searching for the best voltage and current conditions to maximize power from the panels, which after all is what you paid big bucks for, right?
Let's explore how MPPT works. Normal power regulators like this one interface between the solar panel array and the storage battery. When the battery is full, they quit charging to protect the battery from boiling the electrolyte away. Pretty simple. But what if you need more power from your solar panels than the simple case? It turns out that MPPT can, using more electronics and some intelligence, harness more power from your solar arrays than a simple on/off charge regulator. How? by using a small IC chip that searches for the highest POWER from the panel, hence the name maximum power point tracking. The tracking just means that as the sunlight changes, so does the maximum power location.
Unfortunately Solar Panels are not just a source of simple DC power - that is they don't behave like a battery does. The fewer amps you draw from the panel, the higher the panel's voltage across the wires becomes. This is where most MPPT discussions end but with a couple simple equations (ohm's law) we can dive deeper into what MPPT does and why its good (and costs more).
Ohms law is really simple: there are two parts: Voltage = Current times Resistance (V=I x R)
Of course we can re-arrange it other ways: R = I/V, I = V/R Where I is in amps, V in volts, R in ohms. If we connect a 1 ohm (R) resistor across a 12V battery (V) then solving for I must be 12 AMPs flowing through the resistor.
For POWER (one P in MPPT) we need to know another simple equation Power = Volts x Amps (DC version)
In the above example, the resistor is most likely a power resistor (i.e. big) because 12 volts x 12 amps = 144 watts which gets hot real fast. In this case, the 144 watts is a power point from a battery. They are simple since small currents do not make large swings on the battery voltage and we can assume it to be nearly constant when using large storage batteries. Solar panels are quite the opposite - their voltage changes with current change. With power being the multiplier of voltage and current, you can see how this function can be maximized, which is the aim of a MPPT tracker. So how do they work this magic? read on....
Finally we need to know a little about DC to DC converters, as they are the logic controlled core of the MPPT solar battery charger. True they don't convert DC directly to another DC voltage, but they are pretty efficient (97%+) by taking an input DC POWER, making a AC voltage from it much like an inverter would, then converting that AC back to DC again for their output to the battery. And they may alter the battery voltage depending on temperature for optimal charging or even change the voltage depending on how many cells you choose to make a battery array (e.g. 12V, 24V, 48V etc). They are flexible and always seek to get as much power from your solar array as possible and put as much power in your batteries until they are full. Some models take the remaining power from your array and produce AC to be sold back to the utility company, but not all have this feature. Big Solar systems can use 6000 watt DC/DC converters that have a 240 Volt AC output as well. They are not small or cheap but they do work.
How does MPPT work? Shine a constant amount of light on a solar panel so that it's output can be characterized. A "12V" panel isn't really 12.000 Volts. It may be 16-19 Volts if you put a digital voltmeter across its output terminals. This is known as it's Voc or Voltage, open circuit meaning zero current flows because the circuit is open. The compliment to Voc is Isc which stands for Current (I) short circuit. Very few devices can have the Isc measured directly, but for small (60W give or take panels) it is safe to put an ampmeter across the same two wires from the panel and know how many amps flow when the voltage is zero (it's zero because you shorted the wires with the ampmeter - the definition of zero volts is a short circuit) If you were to plot on the X axis of a graph voltage, from the two endpoints, 0 and Voc (say it's 19V) and on the Y axis you plot the multiplication of amps times voltage, which we know to be power, you will find a curve with a peak. The MPPT seeks to operate your solar array at that peak. Without MPPT, the voltage is more a function of the battery's state of charge (from 11-13.8V) and the current that flows is on the graph of your panel's power function for a given voltage. In other words, without the dc/dc converter logic and MPPT smarts, the battery is a big tail that wags the dog (solar array) - I have a plot of the MPPT lines in my review of the 60W sunforce array - its located in the photos section and plots how the voltage reacts to the current, and where the maximum power point is - for those panels it's optimal for charging 12V lead acid batteries so MPPT controllers won't pay for themselves but the graph is interesting to understand Voc, Isc, and the curve in between.
If all this electrical stuff is getting confusing, lets change the example. Think of voltage (V) as RPM from your car's engine. Now think of Amperage (I) as being Torque on the crankshaft. Work done is RPM x Torque. If either is zero, no work is done. And just hooking the crankshaft to the differential doesn't give you alot of options, so we invented the transmission which allowed us to get the most work out of th e engine no matter the conditions. MPPT is just an automatic transmission - it finds the peak RPM and Torque for your conditions (accellerator pedal, slope, tire size, etc) and gets the most out of the engine (panels) for any operating point. For 12VDC systems, you don't alwyas need a transmission - just hooking the output of the panel (crankshaft) to the battery (differential) will work. Granted it's oversimplified but the idea is the same - you want to find the peak in the curve (in the sunforce 4 panel set I actually plotted the I vs V curve over the panel's entire operating range - its in the photographs for that product, the sunforce 50048 Sunforce 50048 60-Watt Solar Charging Kit look at the black photo - it's got pink and blue lines representing the voltage and current you can get from the panel. Think of the graph as an engine plot and it makes better sense but the analogy still isn't perfect, just close.
A 16V, 30 watt panel might give you 33 watts at a particular voltage, or an extra 10% using MPPT. In other installations, wiring your panels in series for higher voltages may be where the maximum power is found. The chip inside the MPPT tracker searches for this peak in your system and operates the solar panel (or array of panels) at it's absolute maximum power, which is sent to the DC/DC converter to charge your batteries.
We might get 10-30% more power doing this, but the voltage will be all wrong for charging our battery, or our battery array. And that's where the DC/DC converter steps in. As a simple example, say you find that 2 panels in parallel give you 14.5V at 1.9A going through your non-MPPT charge controller, or 27.5W delivered to your batteries. Wired in series using MPPT they give you 37V at 1.25A or ~48W. You would get more power by wiring in series for a higher solar voltage of 37V, which is too high to charge a 12V lead acid storage battery. Now you need a MPPT.
The MPPT takes the 37V, 1.25A from your panels and gets ~48W, looses 2W in conversion inefficiencies(give or take) for 46W out, and converts it to 13.6V to charge your battery array at 3.38A [45.96W] whereas had you wired the two panels in parallel you would get about 27.5 watts in this illustration.
MPPT systems are found in high voltage solar arrays (100V+) because the peak power points in these systems are up high in voltage and low in current. It has a second advantage - by running lower current through the panels, you can get by with smaller wire which lowers the project cost given the price of copper.
To sum it all up -
For really small solar panels, (1w) and big batteries (100 AH) you really don't need a charge controller just a diode to prevent backflow when the sun is down. Car battery mainters are made this way.
As you increase power and run the risk of overcharge, some controller is needed. The cheapest is like the one sold here - the non-mppt which works well with solar panels that are close to the battery voltage and would not optimize much with MPPT.
And finally as you cover your house with solar panels, MPPT systems sqeeze every last drop of power so long as you operate them within their specified parameters (often limits on voltage and current comming in or watts converted) Outback is a major MPPT converter which can handle a VERY wide range of input voltages and run a grid-tie system with or without batteries. As for 4 stars - you can buy MPPT trackers about this size for $112 now.

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The Sunforce 60032 30 Amp Digital Charge Controller prevents overcharging of 12-volt batteries. It is intended for use with 12-volt solar panels, and can handle up to 30 amps of array current and up to 500 watts of solar power. The controller will continuously display the charging current or battery voltage on the LCD digital meter, and also automatically indicates the charged condition of your battery on the LED bar graph. The 60032 is designed to work with all kinds of 12-volt solar panels for indoor use.

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