It may well be impossible. Well, I agree to three neutron reflectors, but I do not know…]]>

I need a MOX reactor with maximum efficiency using quad rods and four iridium neutron reflectors. However, I can't get the heat out of it in any way.

It may well be impossible. Well, I agree to three neutron reflectors, but I do not know how to build a heat removal path so that the first contact element does not burn out.

So far, I have only achieved the construction of a stable circuit with two reflectors and an efficiency of 24.92:

erp=G6TudmFBov45bNbnb/RgfjBkefz6Nl8m0NJRlvQzBrMyQM2P+9+dQ0LJr8HtfOsiRcgD

By the way, I have 54 liquid (10 Stirling generators each) uranium reactors with an efficiency of 7 (half of them are iridium neutron reflectors) and a total power of 27.6 kEU/t.

Therefore, I would like to build moss reactors also with maximum efficiency.

]]>1.

Code:…]]>

Reminder: All designs are Mark I unless I mention its Mark. Efficiency has two parts - A / B means A for EU and B for fluid.

1.

Code: erp=bpO50cpnRpTbdGYHJgwfqTxWUtWUg2Qrvc2H9Z2g0Wn/0fhHIrGf5KXVab+4k2ezRgDf/AM=

Output: 200EU/t, 1230.15hU/t

Efficiency: 6.67 / 25.63

Heating/cooling capacity: 616/619

Components:

5 Advanced Heat Exchanger

5 Advanced Heat Vent

15 Component Heat Vent

1 Dual Fuel Rod (Uranium)

2 Heat Exchanger

1 Heat Vent

17 Overclocked Heat Vent

1 Quad Fuel Rod (Uranium)

1 Reactor Heat Vent

6 Thick Neutron Reflector (2 cycle lifespan)

2. ※ This one is a Mark II-1 reactor. You should wait for cooling(about 220 sec) before starting new cycle.

Code: erp=bpO50cpqtACU41lcJ4mgacgXIP0CTXAzSa90O0JovZE9L8hDiTHjbsYghkh0Y6NbD2EaaAM=

Output: 212.66EU/t (215EU/t for online), 1242.21hU/t

Efficiency: 6.08 / 22.18

Heating/cooling capacity: 628/625

Components:

7 Advanced Heat Exchanger

4 Advanced Heat Vent

15 Component Heat Vent

1 Dual Fuel Rod (Uranium)

1 Fuel Rod (Uranium)

18 Overclocked Heat Vent

1 Quad Fuel Rod (Uranium)

1 Reactor Heat Vent

6 Thick Neutron Reflector (3 cycle lifespan for three, 2 cycle lifespan for other three)

3. ※ This one has exactly 1200hU/t output while running.

Code: erp=N0nc6OUzphi0xF/VcL62r/3BXYtIktfnJtDs5qfbnukxXfYZyFnXxtYuVCfwgvdJJ9rs2AM=

Output: 215EU/t, 1197.89hU/t

Efficiency: 5.38 / 18.72

Heating/cooling capacity: 600/602

Components:

5 Advanced Heat Exchanger

5 Advanced Heat Vent

14 Component Heat Vent

1 Dual Fuel Rod (Uranium)

2 Fuel Rod (Uranium)

3 Heat Exchanger

1 Heat Vent

17 Overclocked Heat Vent

1 Quad Fuel Rod (Uranium)

4 Thick Neutron Reflector (3 cycle lifespan for three, one cycle lifespan for one)

4.

Code: erp=N0nc6OU0SCUGPU2udH40zUbU+ncec750nvWOlOCoGMEimItf/9PQCsRAJ2iB3XzC43bMXAM=

Output: 260EU/t, 1317.82hU/t

Efficiency: 5.20 / 16.47

Heating/cooling capacity: 660/660

Components:

5 Advanced Heat Exchanger

5 Advanced Heat Vent

17 Component Heat Vent

2 Fuel Rod (Uranium)

1 Heat Exchanger

18 Overclocked Heat Vent

2 Quad Fuel Rod (Uranium)

3 Thick Neutron Reflector (3 cycle lifespan each)

5. ※ This one has exactly 1200hU/t output while running.

Code: erp=A3Sdzo5TQQSxlrd1hOXHjrxy2GI+IaY3sxFLdH9mGbqJ28TOPo/C9gKvvPcc0wePivXF0AM=

Output: 260EU/t, 1198.56hU/t

Efficiency: 4.73 / 13.64

Heating/cooling capacity: 600/600

Components:

3 Advanced Heat Exchanger

3 Advanced Heat Vent

22 Component Heat Vent

1 Dual Fuel Rod (Uranium)

1 Fuel Rod (Uranium)

16 Overclocked Heat Vent

2 Quad Fuel Rod (Uranium)

1 Thick Neutron Reflector (6 cycle lifespan)

6. ※ This is a Mark III reactor. It should be turned off after 5000 sec of running, and 110 sec of cooling is needed before running again.

Code: erp=IO3C7VzrTehKA4tUn2wvv7uhg0qmP1FL1gYo/BAE9Z+BpnUfz4/j3QjC/O5MVZswVQrdtuG9WrMR7rFsfWUD

Output: 273.97EU/t (280EU/t for online), 1355.67hU/t

Efficiency: 4.96 / 15.41

Heating/cooling capacity: 696/688

Components:

6 Advanced Heat Exchanger

4 Advanced Heat Vent

19 Component Heat Vent

1 Dual Fuel Rod (Uranium)

1 Fuel Rod (Uranium)

1 Iridium Neutron Reflector

19 Overclocked Heat Vent

2 Quad Fuel Rod (Uranium)

1 Thick Neutron Reflector (6 cycle lifespan)

7. ※ Highest possible efficient Mark I reactor without any reflectors.

Code: erp=DdJ3OjlNSKViuHOYaH3pHQXPHsN9xz0cf2uZtGKA7bfJjrLJcCRYpguiiTERVG6m7J4zGAM=

Output: 280EU/t, 1278.34hU/t

Efficiency: 4.67 / 13.32

Heating/cooling capacity: 640/640

Components:

3 Advanced Heat Exchanger

20 Component Heat Vent

2 Dual Fuel Rod (Uranium)

2 Heat Exchanger

4 Heat Vent

18 Overclocked Heat Vent

2 Quad Fuel Rod (Uranium)

8.

Code: erp=bpO50cpqRhd/RNL54xHiXC3qm1WI3ktqeDjww2Hrh44cbDNtO2wAPhSxmZJN1GvB8OxvUAM=

Output: 320EU/t, 1374.14hU/t

Efficiency: 4.27 / 11.45

Heating/cooling capacity: 688/688

Components:

2 Advanced Heat Exchanger

4 Advanced Heat Vent

19 Component Heat Vent

3 Dual Fuel Rod (Uranium)

1 Fuel Rod (Uranium)

4 Heat Exchanger

19 Overclocked Heat Vent

2 Quad Fuel Rod (Uranium)

9.

Code: erp=bpO50cpoIJYy1u6woZVoraNzhDjhahHEDxdLvfHnweME21jZ4UKn6lzK4faHESv1DRGSaAM=

Output: 325EU/t, 1341.52hU/t

Efficiency: 4.06 / 10.48

Heating/cooling capacity: 672/672

Components:

6 Advanced Heat Exchanger

5 Advanced Heat Vent

19 Component Heat Vent

1 Dual Fuel Rod (Uranium)

2 Fuel Rod (Uranium)

18 Overclocked Heat Vent

3 Quad Fuel Rod (Uranium)

10.

Code: erp=bpO50cpnRpTbdGRFPwINS0CNhSjNBQWbh9EIqI2Yfdg5sgf6A+hFgHb2hdD4iNnppmf+2AM=

Output: 360EU/t, 1342.19hU/t

Efficiency: 3.60 / 8.39

Heating/cooling capacity: 672/672

Components:

4 Advanced Heat Exchanger

4 Advanced Heat Vent

21 Component Heat Vent

4 Dual Fuel Rod (Uranium)

18 Overclocked Heat Vent

3 Quad Fuel Rod (Uranium)

]]>I currently only have IC2 and JEI mod installed.

]]>Please try to include detail in your posts instead of posting the bare minimum. Giving just a crash report and one sentence almost certainly isn't sufficient information to allow others to help you, and even if all the relevant information is available in the crash report (I don't know if it is, I'm not fluent in crash reports) it's still highly advisable to put in the extra five minutes and write down everything relevant that you know. Failing to do that just means that whoever wants to help you will have to go to extra work to do so, and that means that they're less likely to try to help.

]]>As for open sourcing IC2 I also agree that some people (like me) might want to help fix bugs/upgrade to newer versions/add new things.]]>

As for open sourcing IC2 I also agree that some people (like me) might want to help fix bugs/upgrade to newer versions/add new things.

]]>不好意思哈.不过谢谢你的回复，麻烦你了 ]]>

老哥你可能误会了，我是国人，IC2国区负责人，所以不用和我说英文的。原则上上架网易是我们这边统一进行，所以抱歉我们无法授权您的相关行为(●'◡'●)。

不好意思哈.不过谢谢你的回复，麻烦你了

]]>In fact, it will

I've got to say, I…]]>

In fact, it will **scan a small area around you and then display the ore/stone ratio** of the scanned area.

I've got to say, I have no clue about the exact math algorithm, either, but someone told me **BIGGER values mean MORE ORE** and are therefore GOOD.

**And Good means Profit, HAYO!**

**~Max**

https://jenkins.ic2.player.to/job/IC2/job/1.18/changes

There are also unofficial spiritual successors such as

- TechReborn (1.17, 1.18, 1.19)
- FTB Industrial Contraptions (1.18, 1.19)

~Max]]>

https://jenkins.ic2.player.to/job/IC2/job/1.18/changes

There are also unofficial spiritual successors such as

- TechReborn (1.17, 1.18, 1.19)
- FTB Industrial Contraptions (1.18, 1.19)

~Max

]]>Design 1, max power output:

19 seconds on, 17 off

1790.23 HU/t

35.8 mB/t

8.91 superheated steam generators worth of heat

1342.67 EU/t with superheated steam

5 quad uranium cells

4 reflectors

45 overclocked heat vents

25.44 efficiency (2544 EU per uranium per second the reactor is on)

code: erp=IO3DJJu16N47AYzFwO6s/w7SnKn4CNY4rks076a2YPthdAxjUyrOBa2nTVydQjLkg8m7TeNBqeurF5dEluUD

image:

Design 2, maximum convenient power output:

9 seconds on, 9 off (the number 9 is important here, 8:8, 10:10, and similar will not work)

1600 HU/t exactly

32 mB/t exactly

8 superheated steam generators worth of heat exactly

1200 EU/t with superheated steam exactly

5 quad uranium cells

3 reflectors

40 overclocked heat vents (the positions off these don't matter at all, just don't let them touch the uranium)

24 efficiency exactly (exactly 2400 EU per uranium per second the reactor is on)

code: erp=AIO3DJJu16N47AK+eRsVv4BO6mb6fIf0ASFlJppftdtHk8o6fK0FmmlXr3Ia/HOGgdd7HBRR1S0L1jdmF2UD

image:

Design 3, maximum power steady state:

On full time, no cooldown needed ever unless insufficient coolant is supplied/removed

460 EU/t in EU mode

720 heat in EU mode

2.88 efficiency in EU mode (288 EU per uranium per second the reactor is on)

1440 HU/t

28.8 mB/t

7.2 superheated heat generators worth of heat

1080 EU/t with superheated steam

6 quad uranium cells

4 dual uranium cells

2 reflectors

4 component heat exchangers

6 component heat vents

32 overclocked heat vents

6.75 efficiency (675 per uranium per second the reactor is on)

code: erp=bpO6Loyl+lHTR64G4sDhev1oSkJFzMHxoMqJTmGrZDKpBnUpsxlcyhLmn8+Oty1evTBQWAM=

image:

Design 3 can be modified slightly by replacing one of the two dual uranium cells in the corners with a single uranium cell. The changed fluid reactor stats are as follows:

1400 HU/t exactly

28 mB/t exactly

7 superheated steam generators worth of heat exactly

1050 EU/t with superheated steam exactly

6.77 efficiency (677 EU per uranium per second the reactor is on)

code: erp=bpO6Loyl+lHTR64G4sDhev1oSkJFzMHxoMqJTmGrZDKpBnUpsxlcyhLmn8+MoQLeb8DMWAM=

]]>