diff --git a/src/main/resources/assets/hbm/manual/fusion/boiler.json b/src/main/resources/assets/hbm/manual/fusion/boiler.json
index 08ad1ec6f..a6cd39a5c 100644
--- a/src/main/resources/assets/hbm/manual/fusion/boiler.json
+++ b/src/main/resources/assets/hbm/manual/fusion/boiler.json
@@ -3,9 +3,11 @@
"icon": ["hbm:tile.fusion_boiler", 1, 0],
"trigger": [["hbm:tile.fusion_boiler"]],
"title": {
- "en_US": "Fusion Reactor Boiler"
+ "en_US": "Fusion Reactor Boiler",
+ "ru_RU": "Плазменный бойлер"
},
"content": {
- "en_US": "Simplest energy-extracting component of a [[fusion reactor|Fusion Reactor]], uses the plasma output energy (measured in TU/t) from the [[torus|Fusion Reactor Vessel]] to boil water into [[super dense steam|Super Dense Steam]]. Each mB of water uses 200TU to boil, as a boiler would, however, the fusion reactor boiler produces a higher compression level of steam directly, making it more efficient than conventional boilers.
Due to using plasma energy, boilers are affected by port sharing rules, meaning that having multiple connected boilers (or [[MHDTs|MHD Turbine]]) decreases the amount of energy each boiler gets, but overall increases the total amount extracted from the torus."
+ "en_US": "Simplest energy-extracting component of a [[fusion reactor|Fusion Reactor]], uses the plasma output energy (measured in TU/t) from the [[torus|Fusion Reactor Vessel]] to boil water into [[super dense steam|Super Dense Steam]]. Each mB of water uses 200TU to boil, as a boiler would, however, the fusion reactor boiler produces a higher compression level of steam directly, making it more efficient than conventional boilers.
Due to using plasma energy, boilers are affected by port sharing rules, meaning that having multiple connected boilers (or [[MHDTs|MHD Turbine]]) decreases the amount of energy each boiler gets, but overall increases the total amount extracted from the torus.",
+ "ru_RU": "Простейший элемент [[термоядерного реактора|Fusion Reactor]] для получения полезной энергии. Использует тепловую энергию плазмы (TU/t) из [[основной камеры|Fusion Reactor Vessel]] для нагрева воды до [[раскалённого пара|Super Dense Steam]]. На 1 mB воды требуется 200 TU тепла, как и в обычном бойлере. Однако, в отличие от последнего, данный механизм работает эффективнее ввиду пропуска промежуточных видов пара.
Поскольку бойлеры используют энергию плазмы, они подвержены действию правила совместного использования портов: если к тору подключено сразу несколько бойлеров (или [[МГД-турбин|MHD Turbine]]), каждый из них по отдельности получит меньше энергии, хотя от самого тора суммарно энергии будет отведено больше, нежели при подключении одного бойлера."
}
}
diff --git a/src/main/resources/assets/hbm/manual/fusion/breeder.json b/src/main/resources/assets/hbm/manual/fusion/breeder.json
index 16166e4bc..0eca09901 100644
--- a/src/main/resources/assets/hbm/manual/fusion/breeder.json
+++ b/src/main/resources/assets/hbm/manual/fusion/breeder.json
@@ -3,9 +3,11 @@
"icon": ["hbm:tile.fusion_breeder", 1, 0],
"trigger": [["hbm:tile.fusion_breeder"]],
"title": {
- "en_US": "Fusion Reactor Breeding Chamber"
+ "en_US": "Fusion Reactor Breeding Chamber",
+ "ru_RU": "Камера-размножитель"
},
"content": {
- "en_US": "Uses neutron flux from a fusion reactor's [[torus|Fusion Reactor Vessel]] in order to process materials. Can perform any recipe from the [[RBMK irradiation channel|RBMK Irradiation Channel]], plus a few unique recipes with liquid inputs. Neutron flux output is not affected by port sharing rules, the neutron flux output level on a torus is constant across all ports no matter how many components are attached to it."
+ "en_US": "Uses neutron flux from a fusion reactor's [[torus|Fusion Reactor Vessel]] in order to process materials. Can perform any recipe from the [[RBMK irradiation channel|RBMK Irradiation Channel]], plus a few unique recipes with liquid inputs. Neutron flux output is not affected by port sharing rules, the neutron flux output level on a torus is constant across all ports no matter how many components are attached to it.",
+ "ru_RU": "Устройство, использующее поток нейтронов из [[главной камеры|Fusion Reactor Vessel]] для облучения материалов. Ввиду этого принцип работы камеры схож со [[стержнем облучения РБМК|RBMK Irradiation Channel]]. Но, в отличие от последнего, камера-размножитель принимает и жидкое сырьё. Нейтронный поток не подвержен действию правила совместного использования портов, а это значит, что он будет одинаков и постоянен на всех портах тора вне зависимости от количества подключенных камер."
}
}
diff --git a/src/main/resources/assets/hbm/manual/fusion/collector.json b/src/main/resources/assets/hbm/manual/fusion/collector.json
index 1820a9ff1..b4ef55ebe 100644
--- a/src/main/resources/assets/hbm/manual/fusion/collector.json
+++ b/src/main/resources/assets/hbm/manual/fusion/collector.json
@@ -3,9 +3,11 @@
"icon": ["hbm:tile.fusion_collector", 1, 0],
"trigger": [["hbm:tile.fusion_collector"]],
"title": {
- "en_US": "Fusion Reactor Collector Chamber"
+ "en_US": "Fusion Reactor Collector Chamber",
+ "ru_RU": "Улавливающая камера"
},
"content": {
- "en_US": "Can be attached to a fusion reactor's [[torus|Fusion Reactor Vessel]] in order to increase the byproduct production rate by 50%. The byproducts are extracted from the torus itself, the collector does not have a GUI, nor ports. The collector also does not use the plasma's flux or energy level, so other components affected by energy sharing are unaffected."
+ "en_US": "Can be attached to a fusion reactor's [[torus|Fusion Reactor Vessel]] in order to increase the byproduct production rate by 50%. The byproducts are extracted from the torus itself, the collector does not have a GUI, nor ports. The collector also does not use the plasma's flux or energy level, so other components affected by energy sharing are unaffected.",
+ "ru_RU": "Опциональный компонент реактора, который подключается к [[тору|Fusion Reactor Vessel]] для увеличения выхода побочных продуктов на 50%. Извлекать продукты придётся самостоятельно прямо из тора, так как коллектор не имеет ни интерфейса, ни портов. Он не нуждается в энергии или плазме, а потому не подвержен действию правила распределения энергии."
}
}
diff --git a/src/main/resources/assets/hbm/manual/fusion/coupler.json b/src/main/resources/assets/hbm/manual/fusion/coupler.json
index 0c0a47223..e8b74640c 100644
--- a/src/main/resources/assets/hbm/manual/fusion/coupler.json
+++ b/src/main/resources/assets/hbm/manual/fusion/coupler.json
@@ -3,9 +3,11 @@
"icon": ["hbm:tile.fusion_coupler", 1, 0],
"trigger": [["hbm:tile.fusion_coupler"]],
"title": {
- "en_US": "Fusion Reactor Coupler"
+ "en_US": "Fusion Reactor Coupler",
+ "ru_RU": "Спариватель"
},
"content": {
- "en_US": "Small and unassuming, yet the most powerful part of a [[fusion reactor|Fusion Reactor]] setup, the coupler turns outgoing plasma energy from a [[torus|Fusion Reactor Vessel]] into usable klystron energy which can be used as the power source for another torus. Some fuel combinations require this, as the minimum klystron energy needed to ignite the plasma exceeds what four [[klystrons|Klystron]] could deliver.
Affected by port sharing rules, keep in mind that the coupler's output will be affected when using [[boilers|Fusion Reactor Boiler]] or [[MHDTs|MHD Turbine]] on the torus it draws power from."
+ "en_US": "Small and unassuming, yet the most powerful part of a [[fusion reactor|Fusion Reactor]] setup, the coupler turns outgoing plasma energy from a [[torus|Fusion Reactor Vessel]] into usable klystron energy which can be used as the power source for another torus. Some fuel combinations require this, as the minimum klystron energy needed to ignite the plasma exceeds what four [[klystrons|Klystron]] could deliver.
Affected by port sharing rules, keep in mind that the coupler's output will be affected when using [[boilers|Fusion Reactor Boiler]] or [[MHDTs|MHD Turbine]] on the torus it draws power from.",
+ "ru_RU": "Является самой важной частью схемы [[термоядерного реактора|Fusion Reactor]]. Механизм преобразует выходную энергию плазмы от [[одного тора|Fusion Reactor Vessel]] в энергию клистрона, чтобы ею можно было запустить другой тор. Спариватель совершенно необходим в тех случаях, когда минимум энергии для воспламенения плазмы превышает количество, которое смогли бы обеспечить 4 [[клистрона|Klystron]] на максимальной мощности.
Подвержен действию правила совместного использования портов, так что мощность спаривателя может снизиться при совместном использовании с [[МГД-турбинами|MHD Turbine]] или [[бойлерами|Fusion Reactor Boiler]]."
}
}
diff --git a/src/main/resources/assets/hbm/manual/fusion/fusionreactor.json b/src/main/resources/assets/hbm/manual/fusion/fusionreactor.json
index e46e26c0f..3f7b87ca3 100644
--- a/src/main/resources/assets/hbm/manual/fusion/fusionreactor.json
+++ b/src/main/resources/assets/hbm/manual/fusion/fusionreactor.json
@@ -3,9 +3,11 @@
"icon": ["hbm:tile.fusion_torus", 1, 0],
"trigger": [],
"title": {
- "en_US": "Fusion Reactor"
+ "en_US": "Fusion Reactor",
+ "ru_RU": "Термоядерный реактор"
},
"content": {
- "en_US": "A powerful and versatile reactor that fuses light elements into heavier ones. Depending on the setup, reactors may be specialized to make as much power as possible, or to make a lot of byproducts efficiently.
Components:
* [[Fusion Reactor Vessel]]: Core component, this is where the plasma is created
* [[Klystron]]: Primary energy source
* [[Fusion Reactor Collector Chamber]]: Increases byproduct yield
* [[Fusion Reactor Breeding Chamber]]: Uses neutron flux from the vessel to process materials
* [[Fusion Reactor Boiler]]: Uses plasma energy to boil water
* [[MHD Turbine]]: Uses plasma energy to generate electricity directly
* [[Fusion Reactor Coupler]]: Uses plasma energy to generate usable klystron energy, allowing plasma vessels to be chained
The most basic setup for a fusion reactor is a single plasma vessel (\"torus\"), supplied with power and [[perfluoromethyl|Perfluoromethyl]] cooling, and an air-cooled klystron to ignite its plasma. Depending on its purpose, power-generating parts such as boilers and MHDTs, or byproduct-yielding parts like collectors and breeders may be added.
More advanced setups may employ couplers to create the energy needed to ignite higher-tier plasmas, creating a setup with two ore more toruses. Byproducts from lower stages can be used for certain higher tier plasma types, so one torus may provide both ignition energy and fuel for another."
+ "en_US": "A powerful and versatile reactor that fuses light elements into heavier ones. Depending on the setup, reactors may be specialized to make as much power as possible, or to make a lot of byproducts efficiently.
Components:
* [[Fusion Reactor Vessel]]: Core component, this is where the plasma is created
* [[Klystron]]: Primary energy source
* [[Fusion Reactor Collector Chamber]]: Increases byproduct yield
* [[Fusion Reactor Breeding Chamber]]: Uses neutron flux from the vessel to process materials
* [[Fusion Reactor Boiler]]: Uses plasma energy to boil water
* [[MHD Turbine]]: Uses plasma energy to generate electricity directly
* [[Fusion Reactor Coupler]]: Uses plasma energy to generate usable klystron energy, allowing plasma vessels to be chained
The most basic setup for a fusion reactor is a single plasma vessel (\"torus\"), supplied with power and [[perfluoromethyl|Perfluoromethyl]] cooling, and an air-cooled klystron to ignite its plasma. Depending on its purpose, power-generating parts such as boilers and MHDTs, or byproduct-yielding parts like collectors and breeders may be added.
More advanced setups may employ couplers to create the energy needed to ignite higher-tier plasmas, creating a setup with two ore more toruses. Byproducts from lower stages can be used for certain higher tier plasma types, so one torus may provide both ignition energy and fuel for another.",
+ "ru_RU": "Мощный и многофункциональный реактор, который создаёт более тяжёлые элементы путём слияния более лёгких (синтез). В зависимости от проектировки, реакторы могут быть предназначены как для получения максимально большого количества энергии, так и для эффективного получения побочных продуктов.
Компоненты:
* [[Основная камера]] - краеугольный компонент всей конструкции, в котором создаётся и удерживается плазма
* [[Клистрон]] - источник первичной энергии
* [[Улавливающая камера]] увеличивает выход побочных продуктов
* [[Камера-размножитель]] использует нейтронный поток для получения новых материалов
* [[Бойлер]] использует тепло плазмы для нагрева воды
* [[МГД-турбина]] использует энергию плазмы напрямую для получения электричества
* [[Спариватель]] использует энергию плазмы для поджига плазмы в соседнем реакторе.
Основная камера, как самый важный компонент, требует питания электричеством и охлаждения [[перфторметаном|Perfluoromethyl]], а также ей необходим клистрон для воспламенения плазмы. Остальные компоненты вроде бойлеров, МГД-турбин, улавливателей или камер размножения могут быть добавлены в соответствии с задачами.
Спариватели используются для создания продвинутых реакторных схем с несколькими торами, где получается плазма более высокого уровня. Из побочных продуктов ранних этапов работы образуется плазма помощнее: один реактор обеспечивает другой и энергией, и топливом."
}
}
diff --git a/src/main/resources/assets/hbm/manual/fusion/klystron.json b/src/main/resources/assets/hbm/manual/fusion/klystron.json
index bf4d4aed7..730a3d6b8 100644
--- a/src/main/resources/assets/hbm/manual/fusion/klystron.json
+++ b/src/main/resources/assets/hbm/manual/fusion/klystron.json
@@ -3,9 +3,11 @@
"icon": ["hbm:tile.fusion_klystron", 1, 0],
"trigger": [["hbm:tile.fusion_klystron"]],
"title": {
- "en_US": "Klystron"
+ "en_US": "Klystron",
+ "ru_RU": "Клистрон"
},
"content": {
- "en_US": "Main power source of a [[fusion reactor|Fusion Reactor]], uses electricity and [[compressed air|Compressed Air]] to generate input energy (klystron energy or KyU) for the connected [[torus|Fusion Reactor Vessel]]. The output target needs to be defined in the GUI. Will throttle if either the buffered electricity or compressed air falls below 50%. If the klystron's output falls below the connected torus' required input level, it will not throttle, rather the plasma will immediately extinguish."
+ "en_US": "Main power source of a [[fusion reactor|Fusion Reactor]], uses electricity and [[compressed air|Compressed Air]] to generate input energy (klystron energy or KyU) for the connected [[torus|Fusion Reactor Vessel]]. The output target needs to be defined in the GUI. Will throttle if either the buffered electricity or compressed air falls below 50%. If the klystron's output falls below the connected torus' required input level, it will not throttle, rather the plasma will immediately extinguish.",
+ "ru_RU": "Источник энергии для [[термоядерного реактора|Fusion Reactor]]. Использует электричество и [[сжатый воздух|Compressed Air]] для генерации первичной энергии (энергия клистрона), от которой запускается подключенный [[тор|Fusion Reactor Vessel]]. Значение выводимой энергии задаётся в графическом интерфейсе клистрона. Начнёт работать хуже, если количество энергии в буфере или запас топлива будут ниже 50%. Плазма гаснет, если энергии от клистрона недостаточно."
}
}
diff --git a/src/main/resources/assets/hbm/manual/fusion/mhdt.json b/src/main/resources/assets/hbm/manual/fusion/mhdt.json
index b297c50a6..6a17804ba 100644
--- a/src/main/resources/assets/hbm/manual/fusion/mhdt.json
+++ b/src/main/resources/assets/hbm/manual/fusion/mhdt.json
@@ -3,9 +3,11 @@
"icon": ["hbm:tile.fusion_mhdt", 1, 0],
"trigger": [["hbm:tile.fusion_mhdt"]],
"title": {
- "en_US": "MHD Turbine"
+ "en_US": "MHD Turbine",
+ "ru_RU": "МГД-турбина"
},
"content": {
- "en_US": "Magnetohydrodynamic turbines are advanced components of the [[fusion reactor|Fusion Reactor]] that make electric energy out of plasma energy directly without needing steam or turbines, as a [[boiler|Fusion Reactor Boiler]] would. While more expensive and requiring [[perfluoromethyl|Perfluoromethyl]] cooling, they do have an innate +35% conversion bonus from TU to HE. In addition, the MHD turbine requires a minimum input of 5MTU/t of plasma energy to operate normally, otherwise efficiency will be halved.
Due to using plasma energy, MHDTs are affected by port sharing rules, meaning that having multiple connected MHDTs (or boilers) decreases the amount of energy each turbine gets, but overall increases the total amount extracted from the torus.
MHDTs do in fact not have any moving parts, instead the large rotating copper wheel is part of its cooling system. Ya dweeb."
+ "en_US": "Magnetohydrodynamic turbines are advanced components of the [[fusion reactor|Fusion Reactor]] that make electric energy out of plasma energy directly without needing steam or turbines, as a [[boiler|Fusion Reactor Boiler]] would. While more expensive and requiring [[perfluoromethyl|Perfluoromethyl]] cooling, they do have an innate +35% conversion bonus from TU to HE. In addition, the MHD turbine requires a minimum input of 5MTU/t of plasma energy to operate normally, otherwise efficiency will be halved.
Due to using plasma energy, MHDTs are affected by port sharing rules, meaning that having multiple connected MHDTs (or boilers) decreases the amount of energy each turbine gets, but overall increases the total amount extracted from the torus.
MHDTs do in fact not have any moving parts, instead the large rotating copper wheel is part of its cooling system. Ya dweeb.",
+ "ru_RU": "Продвинутый компонент [[термоядерного реактора|Fusion Reactor]], который извлекает электричество из энергии плазмы напрямую, без использования вспомогательных процессов (вроде нагрева воды и прогона пара через паровые турбины). Дороговизна и необходимость в охлаждении [[перфторметаном|Perfluoromethyl]] окупаются безупречными значениями эффективности (135%). В дополнение следует сказать, что турбине необходима мощность не менее 5 MTU/с энергии плазмы, иначе эффективность механизма снизится вдвое.
Поскольку турбина использует энергию плазмы, на неё распространяется правило совместного использования портов: если к тору подключено сразу несколько бойлеров или турбин, каждый из потребителей по отдельности получит меньше энергии, хотя от самого тора суммарно энергии будет отведено больше.
МГДТ вообще-то почти не имеют подвижных запчастей, а большой вращающийся медный маховик является частью системы охлаждения. Да, душнила. :nerd:"
}
}
diff --git a/src/main/resources/assets/hbm/manual/fusion/torus.json b/src/main/resources/assets/hbm/manual/fusion/torus.json
index 62e40983c..74de1faaf 100644
--- a/src/main/resources/assets/hbm/manual/fusion/torus.json
+++ b/src/main/resources/assets/hbm/manual/fusion/torus.json
@@ -3,9 +3,11 @@
"icon": ["hbm:tile.fusion_torus", 1, 0],
"trigger": [["hbm:tile.fusion_torus"]],
"title": {
- "en_US": "Fusion Reactor Vessel"
+ "en_US": "Fusion Reactor Vessel",
+ "ru_RU": "Основная камера"
},
"content": {
- "en_US": "\"Torus\", main component of the [[fusion reactor|Fusion Reactor]], uses fuel and energy from a [[klystron|Klystron]] to generate plasma. Also requires electricity and cooling via [[perfluoromethyl|Perfluoromethyl]] to operate.
Features four connection ports for external components. Devices that use plasma energy (and not just neutron flux) split the total output, a single component will receive 100% of the energy, two components will receive 62.5% each and three components get 50% each. Therefore, using multiple [[boilers|Fusion Reactor Boiler]] or [[MHDTs|MHD Turbine]] increases the total energy output, although with diminishing returns. Flux levels are not affected when shared, the output remains steady across all ports no matter how many attachments are used.
Both the buffered electric charge and fuel levels determine working speed, if either is below 50%, the reactor will start to throttle, burning slower and decreasing output energy. The klystron energy does not affect processing speed, too little energy will simply fail to ignite the plasma, and more energy will not accelerate the reaction."
+ "en_US": "\"Torus\", main component of the [[fusion reactor|Fusion Reactor]], uses fuel and energy from a [[klystron|Klystron]] to generate plasma. Also requires electricity and cooling via [[perfluoromethyl|Perfluoromethyl]] to operate.
Features four connection ports for external components. Devices that use plasma energy (and not just neutron flux) split the total output, a single component will receive 100% of the energy, two components will receive 62.5% each and three components get 50% each. Therefore, using multiple [[boilers|Fusion Reactor Boiler]] or [[MHDTs|MHD Turbine]] increases the total energy output, although with diminishing returns. Flux levels are not affected when shared, the output remains steady across all ports no matter how many attachments are used.
Both the buffered electric charge and fuel levels determine working speed, if either is below 50%, the reactor will start to throttle, burning slower and decreasing output energy. The klystron energy does not affect processing speed, too little energy will simply fail to ignite the plasma, and more energy will not accelerate the reaction.",
+ "ru_RU": "Главный компонент [[термоядерного реактора|Fusion Reactor]]. Генерирует плазму, используя энергию [[клистрона|Klystron]] и топливо. Требует электричество и охлаждение [[перфторметаном|Perfluoromethyl]].
Имеет четыре порта для подключения внешних компонентов. Если имеются несколько устройств, одновременно потребляющих энергию плазмы (вроде турбин или бойлеров), то энергия будет распределяться так, что единственный потребитель получит 100% энергии, каждый из двух механизмов будет получать по 62.5% исходного количества, а каждый из трёх - по 50%. Да, использование нескольких [[бойлеров|Fusion Reactor Boiler]] или [[МГДТ|MHD Turbine]] увеличивает суммарное количество выходной энергии. Это и есть правило совместного использования портов. На поток нейтронов оно не распространяется – поток будет постоянен вне зависимости от количества потребителей.
И уровень энергии в буфере, и запас топлива влияют на скорость работы реактора: если какой-либо из показателей будет ниже 50%, реактор начнёт глохнуть, т.е. снизится скорость сгорания плазмы и выход энергии. Работа клистрона не влияет на скорость процесса: плазма просто не воспламенится, если энергии будет слишком мало, а излишнее её количество не ускорит реакцию."
}
}