Combined utilization steam boiler with fire tubes for towing and cargo ships. Creating a Recycler in Minecraft

Good day, dear forum users.
I present to your attention a diagram of the device of the waste plant. The guide is written for those who are more or less familiar with mods, so I will not dwell on the arrangement of pipes and appliances. For those who are not familiar, information on mods can be found on the Guide written by me personally.

1.Introduction.

In any kind of activity in Minecraft, we constantly get extra resources - whether it's going to the mines, building houses or growing plants in the garden. All these tons of stones, earth, sand, or seeds, seedlings, boards are dead weight in our chests. The wonderful Industrial Craft 2 mod gives us the opportunity to get rid of all this by throwing it into a recycler, getting useful salvage instead of accumulated garbage.

But recycling takes time and energy. The idea of ​​the recycling plant is to minimize the time of standing at the recycler, throwing garbage into it and collecting waste materials, while minimizing energy consumption.

2. Technical part.

Part 1. Production of salvage.

Here is what the factory looks like:

In fact, a plant is somewhat loudly said, rather a small installation, but we will call it a plant, for that matter. I don't like big structures, I try to assemble as compactly as possible.

Here is a more detailed diagram:


I removed the stone column for a while for clarity, but in general it is needed - for what - I will explain below. I have also labeled the pipes and pipe blocks with letters to make the plant easier to understand.

The chest on the screenshots is a giver - i.e. This is where we put all our rubbish.

The process starts with a wooden pipe B(on the first screen is not visible behind the generator). As you know, a wooden pipe takes out blocks from the storage attached to it several times per second (how much depends on the generator), after which the blocks fall into the diamond pipe WITH.

Diamond pipes are a filter - each color passes only those blocks that are inscribed there, but if no block is inscribed, the pipe passes any blocks by this color. Here is a diagram of the output entries in the pipe WITH:

Green : nothing
Yellow : Cobblestone
White : nothing

What happens - all our trash, falling into the pipe C goes further into the diamond pipe D, with the exception of cobblestone - cobblestone falls into the autoworkbench, stone slabs are crafted from it. We're trying, among other things, to maximize the yield of our product, right? So if three stacks of cobblestones make six stacks of slabs, this is only to our advantage.

Remark 1: Ideally, this should be done with all the blocks, but apart from the cobblestone, I did not figure out how to make several of the other blocks.

Remark 2: You can use an improved laser workbench instead of an autoworkbench, but I couldn't get it to work properly. Yes, and this, in principle, is not particularly necessary if we do not have the goal of high-speed processing of waste materials.

So, the cobblestone went into the autoworkbench, and the rest went into the pipe D. Here's the piping diagram D:

Black: nothing
Yellow : nothing
White : Cobblestone

The fact is that even with the weakest generator - a redstone generator - the speed of taking blocks from the chest is higher than the speed of the workbench, and if we have a lot of cobblestone, then sooner or later the workbench will overflow and the cobblestone will go back. If the pipe D replace it with a regular one (cobblestone, gold, iron), then when the workbench is full, the extra cobblestone will go to the utilizer, and we need all the cobblestone to turn into slabs, thereby the pipe D serves to return excess cobblestone back to the chest through a cobblestone pipe A. And everything else goes further - to the pipe block E.

I marked with a letter E Not just one pipe, but several. At first glance, it seems that such a system of pipes is not ergonomic - after all, our blocks can go not only to the utilizer, but can go in a circle and go back. That's right - that's what such a system was conceived for. The fact is that the blocks along the pipe can go completely different, and the utilizer is not able to process several different types blocks at the same time and the extra blocks will either go back or fall out of the pipe. Such a system allows excess blocks to go back into the pipe. D(and from there into the pipe C and back to the chest).

Remark 3: I noticed that even with such a device, extra blocks sometimes fall out of the pipe leading to the utilizer. Drop rate approx. 5%. To minimize losses, I installed an obsidian pipe G and a stone column so that the blocks fall exactly there.

Remark 4: Very rarely (about every 10 blocks) falls out all the same not into the pipe G but in a completely different direction. As a result, we have a loss of about 0.5%. I have not been able to remove this loss. On the other hand, 0.5% is not such a big number to bother with.

As a result, we have that our blocks are rubbish from a pipe D and stone slabs from a pipe F with a probability of 50% fall into the utilizer, and with a probability of 50% return back to the chest, from which they are immediately taken out with a pipe B. Do not pay attention to the figure of 50% - despite the fact that half of the blocks go back, the utilizer practically does not stand idle - after all, the blocks are returned only when the utilizer is in operation.

It is important that the pipe block E was golden - since there will be a lot of blocks in it - some will move forward, others back, third in a circle, and in order not to create lags and load on the server, you need to minimize the time spent by blocks in the pipe.

Remark 5: In order for a wooden pipe to work, you need to attach a generator from BC to it. I opted for a redstone generator as the safest and does not require supervision and refueling. Again, if we do not have the goal of quickly obtaining salvage, then its speed is enough for us.

So our blocks got into the utilizer. I remind you that the heat exchanger operates on a voltage of 32 EU/t, but consumes very little energy. For our plant, just one solar panel is enough (and preferably a bat-box if you don't go to keep the plant idle at night).

Part 2. Boxes with salvage.

The final product of the plant is boxes - this saves space and time for filling them into the matter generator. In principle, if you set up an automatic supply of salvage immediately to the matter generator, you can skip the item with boxes.

Further, everything is simple. Utilities are unloaded from the utilizer by a pipe H, enters the workbench, and from there through the pipes J And K falls into the chest, where it remains.

Remark 6: Golden pipes everywhere except the block E can be replaced with cobblestone - it does not matter.

3. Conclusion:

In conclusion, I would like to note the pros and cons of our plant.

Pros:
- Automation of the process, once they threw the full inventory of blocks into the chest, then it remains only to take out the finished boxes.
- Maximization of efficiency - from the cobblestone we get twice as much salvage through stone slabs
- Minimization of energy consumption - you only need one simple solar battery to keep the plant running

Minuses:
- Low rate of obtaining salvage. Minus it or not - you decide. It doesn't matter to me - whether I put a stack of boxes into the matter generator now or in an hour - it doesn't matter.

Today we will discuss the question of how to make a recycler in Minecraft. It often happens that we get a large number of blocks that have nowhere to apply. From now on, they can be usefully disposed of. To do this, you need to learn how to create a special device. You can get salvage from it. This element is used as fuel, fertilizer, or to get a surprise. At the same time, it should be noted that such features are available only in the Industrial Craft 2 add-on. Here, the crusher is also available to the hero.

Creation

Before moving on to solving the question of how to make a utilizer in Minecraft, it should be noted that we are talking about a very complex machine. To design it, you need a couple of refined iron ingots and three blocks of earth, as well as light dust and a compressor.

Benefit

When wondering how to make a recycler in Minecraft, you should be aware of its capabilities. For example, consider an extra cobblestone. We load it into the utilizer. We pre-make slabs from cobblestone to get more raw materials. We do processing. We get salvage. As already mentioned, fertilizer can be made from it, but this is not the best option.

It's better to make a junk box. You can use it and get some unusual item. Unfortunately, often something of little use, such as a stick or earth, can act as it. However, if you show due perseverance, you can get dust, ore or diamond.

Company

Having solved the question of how to make a recycler in Minecraft, you can build a real recycling plant. This solution will significantly speed up workflows. In fact, the plant is a special installation. For the enterprise, we need a stone column and pipes. Everything that needs processing will be loaded into a special giving chest.

Let's start by using a wooden pipe. This element pulls several blocks per second from the attached storage. Further, the material enters the next stage of processing in the diamond tube. The only exception is the cobblestone, which is sent to the autoworkbench. It is from it that stone slabs are made. Instead of a workbench, a similar design with a laser is allowed, but it does not always work correctly. It should be remembered that certain problems may arise in such a production if too much cobblestone is loaded. The fact is that the speed of collecting blocks from the storage is higher than that of the autoworkbench. So we figured out how to make a recycler in Minecraft.

Class 1za, 23

B. A. Leontiev, S. A. Chepurnov, L. V. Stepanov, and M. F. Fix

COMBINED RECOVERY STEAM BOILER

WITH SMOKE PIPES FOR TOW |X

AND CARGO. TEPLOHODOV declared August)!!4!! Ba L I)2O2! in 1 Ost "hnvsi (: O: P

Combined utilization steam boilers with fire tubes for towing and cargo ships are known.

For the operation of such boilers, the exhaust gases of diesel engines (the main engines of motor ships) are utilized. The boilers are equipped with a nozzle for burning fuel oil. In marine conditions, such a combination is necessary, since the exhaust gases from diesel engines cannot be completely and at any time used in the auxiliary steam boiler. Therefore, during maneuvers of motor ships or long-term operation of diesel engines with a low load, the nozzle is additionally included in the operation to maintain the required steam output of the boiler.

In the proposed combined utilization boiler, c. The purpose of maximum utilization of the heat of the exhaust gases of marine diesel engines and the minimum consumption of fuel oil for the auxiliary burner, over the heating locTh of the boiler, consists of two horizontal beams of smoke-! th pipes, through which exhaust gases pass simultaneously or separately from marine diesel engines, and one vertical bundle of fire tubes, through which the combustion products of fuel from the fores pass. sunk i.

In FIG. the boiler is shown, front view; in Fig. 2 - - a boiler with a furnace in a vertical longitudinal section! Along the line |-L in Fig. 4); in fig. 3 - top view of the boiler; in fig. 4 - boiler in cross section; in fig. 5 - - side view of the boiler: fig. 6 connection of horizontal fire pipes with grates

The boiler consists of a cylindrical body 1 and a lower detachable furnace 2. Inside the body there are four horizontal bundles of smoke-fired pipes 8 designed to utilize the heat of diesel exhaust gases (2 bundles of pipes for each diesel engine) and one vertical bundle of smoke-fired pipes 4 for passing hot gases from forsu!! kch.

The ends of the fire tubes are flared and unrolled in regpets 5 and 6! Fig. 2 and 6). Each bundle of horizontal pipes communicates with No. 88292, respectively, with collectors 7 and 8. The PI of the lower part is connected to the grate 6 to 11ki 2, and in the upper part - through the pipe 1 "connected to the chimney (not shown in the drawing).

The furnace 2 of the boiler consists of a cylindrical body 18 with an upper grill 6 and a bottom 14. The upper grate 6 is used to install and fasten the boiler body and fire tubes 4, and the bottom is for attaching the furnace 2 to the ship's foundation. Furnace 2 has a lining made of refractory bricks inside. A steam nozzle 15 is installed in the center of the furnace neck for spraying fuel oil. Slots are located around the nozzle, the overlap of which regulates the amount of air entering the furnace. For the purpose of good mixing of the atomized fuel with air, the furnace neck is located offset with respect to the axis of the furnace 2.

From the furnace 2, the flue gases enter the vertical bundle of flue pipes 4 and further into the flue duct. Diesel exhaust gases enter the lower collectors of the boiler, from which they are directed through tube bundles to the upper collectors and further into the atmosphere. The design of the boiler provides for independent operation of any of the three Ilo heating surfaces and the combined operation of all three surfaces, i.e. operation from one diesel engine, two diesel engines, one diesel engine from the burner. ki and simultaneously two dissls and from the nozzle.

The collectors are closed from the end sides with quick-locking covers 16, which allow you to open any collector and clean the fire tubes.

The design of the boiler ensures the maximum use of the heat of the exhaust gases of diesel engines of motor ships, regardless of the degree of their load and the conditions for the minimum time spent on cleaning one or another part of the heating surface of the boiler from contamination.

Subject of invention

Combined utilization steam boiler with fire tubes for tugboats and cargo ships, characterized by the fact that, in order to maximize the use of the heat of the exhaust gases of marine diesel engines and minimize the fuel oil consumption for the auxiliary burner, the heating surface of the boiler consists of two pairs of horizontal stacks of smoke tubes, through which exhaust gases1 pass simultaneously or separately from marine diesel engines, and one vertical bundle of fire tubes, through which the combustion products of fuel from the nozzle pass.

Minecraft is a multiplayer and exciting game, presented in the style of "sandbox", is very popular among people of all ages. As you play, you gradually become immersed in wonderful world where you can do absolutely everything. You can build, mine, craft, hunt, communicate with other users, enjoying the process. Minecraft is the kind of game where you can invent various objects, blocks and things that you don't need in virtual life. If during the period of your own gameplay you managed to invent unnecessary blocks, then you can safely send them for recycling, which is possible in updated versions of Minecraft.

If you want, you can make a special Minecraft device designed for recycling, namely a recycler. In this case, it will be possible to receive special salvage materials that can replace various fertilizers, fuel and other surprises in Minecraft. However, this possibility is available in a special modification, namely Industrial Craft 2. What is a recycler, and how can you make it in your favorite Minecraft sandbox? It's very simple, a utilizer is a special mechanism that can be added using a specially developed Industrial Craft 2 modification. The utilizer is able to process a variety of blocks, things.

Enough interesting fact is that during the period of product processing, there is a small chance that gives hope for the formation of useful and necessary waste materials. During the processing of scaffolding, snowballs, glass panels, as well as various sticks, salvage cannot be obtained.

Special instructions for making

Such a Minecraft device is quite complex, for the manufacture of which the following components are needed:

• compressor;
• a certain amount of light dust;
• land in the amount of three blocks;
• refined iron - two ingots.

All of the listed items must be sent to the workbench in order to get a special machine that can work real miracles with unnecessary blocks and objects.