Калькулятор готовых удобрений для гидропоники

## Why complex fertilizers can be harmful for hydroponics
### 1. Unpredictability of nutrient profile
Complex fertilizers contain several nutrients in one formula. However, their ratio and availability to plants can vary significantly. This means you cannot know exactly how much of each element your plant receives. In hydroponics, where plants grow in a water environment without soil, this is especially critical. If plants do not receive the elements they need in the right amounts, their growth may slow down and yield may decrease.
### 2. Nutrient control
With simple salts, such as potassium nitrate or magnesium sulfate, you can easily control the concentration of nutrients in the solution. This can be done by measuring the solution density and its electrical conductivity:
- Density shows how much salt is dissolved in water.
- Electrical conductivity indicates the total amount of ions in the solution.- Electrical conductivity indicates the total amount of ions in the solution.
These parameters can be easily measured with simple instruments. This way, you can precisely adjust the nutrient level and adapt it to the needs of your plants.
### 3. Trust in complex fertilizer manufacturers
When you use complex fertilizers, you rely on information from the manufacturer about what elements and in what quantities they contain. However, this information may not always be accurate or up-to-date. Nutrient profiles shared by people using complex fertilizers may not match the reality of their specific system. This can lead to misunderstanding plant needs and errors in their care.
### 4. Risks for hydroponics development
Using complex fertilizers can create a false sense of confidence in hydroponics beginners. They may think that everything will be simple and convenient with complexes, but in practice this can lead to problems:
- Nutrient deficiency: If the complex lacks some element, this can negatively affect plant growth.
- Nutrient excess: If elements are not absorbed properly, this can lead to toxicity and root damage.

### Conclusion
In conclusion, using simple salts instead of complex fertilizers gives you more control over plant nutrition. You can precisely adjust the solution composition and adapt it to the specific conditions of your hydroponic system. This is especially important for successful plant growth and a good harvest. Therefore, it is worth considering what fertilizers you use in your hydroponics practice!
you can also use simple salts in this calculator

NH₄:NO₃ — K:N — K:Ca — K:Mg — Σ⁺ 0.00 Σ⁻ 0.00 EC_ion — pH_calc — π —

MACRO ratio and gram checks according to Chesnokov are implemented.

Green — good
Yellow — low
Red — high
below/above acceptable

Для анализа соотношений нажмите «Ещё» → «Матрица соотношений». Над таблицей расположена информационная панель — кликайте ⓘ для подробных пояснений по каждому параметру:

NH₄:NO₃ — nitrogen form; NH₄ acidifies pH, optimum NH₄ = 5–15% of total N
K:N, K:Ca, K:Mg — основные соотношения элементов с цветовой индикацией
Σ⁺ / Σ⁻ — sums of cations and anions (meq/L); in a balanced solution Σ⁺ ≈ Σ⁻
EC_ion — расчётный EC по ионному составу (метод Дебая–Хюккеля); не зависит от поля EC
pH_calc — estimated pH by formula pH = 6.5 − 2.0×(NH₄/N); accuracy ±0.3–0.5
π — osmotic pressure (bar) ≈ 0.36×EC; normal 0.5–0.9 bar

Основные инструменты

Auto — автоподбор рецепта: задайте целевые значения в PPM или ммоль, калькулятор подберёт граммы удобрений. Можно ограничить выборку — только избранные или только моно-соли.
Examples — готовые профили по субстратам (гидро, кокос, минвата) и фазам; вкладка «Сообщество» — рецепты других пользователей.
Balance diagnostics («More» → «Diagnostics») — соотношения K:N, K:Ca, K:Mg, Ca:Mg, ионная активность Ca/Mg с коэффициентами γ, матрица соотношений.
Element Compatibility («Ещё» → «Совместимость») — таблица антагонизмов и синергий (высокий P блокирует Fe/Zn, избыток K мешает Ca/Mg и т.д.).
Замешать в OHPG («More» → «Mix in OHPG») — перенести текущий рецепт в OHPG-калькулятор для расчёта по отдельным солям.
Share recipe («Ещё» → «Поделиться») — get a link to the recipe or QR code to share with others.
Acid calculator («Ещё» → «Калькулятор кислот») — calculate the dose of HNO₃/H₂SO₄/H₃PO₄ to lower pH.
Обучающий тур («More» → «Onboarding tour») — step-by-step interactive walkthrough of all features.

Added ability adding your own fertilizers — they go through a moderation process.

After moderation, such fertilizers cannot be edited. Before moderation, you can delete/edit them.

		N=			ppm
Name	Grams	NH4	NO3	NH2	P	K	Ca	Mg	S	Cl	Fe	Zn	Cu	Mn	Mo	B	Co	Si
Total NPK: 0-0-0		0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00
Comparison	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00	0.00

	N	P	K	Ca	Mg	S
N	0	0	0	0	0	0
P	0	0	0	0	0	0
K	0	0	0	0	0	0
Ca	0	0	0	0	0	0
Mg	0	0	0	0	0	0
S	0	0	0	0	0	0

Phase	N	P	K	Ca	Mg	S

Microelements (Fe, Mn, B, Zn, Cu, Mo)

Phase	Fe	Mn	B	Zn	Cu	Mo

Concentrates

Fix: A/B per 100L, Micro per 1000L

A ml

Concentrate A

B ml

Concentrate B

Micro ml

Micro

Diagnostics

K:N 1.0-2.5

K:Ca 0.8-2.0

K:Mg 3.0-7.0

Ca:Mg 2.0-4.0

NO3:NH4

5-25 1 к 14

Ion activity

Ca²⁺ γ=- - ppm

Mg²⁺ γ=- - ppm

Element	Оптимум	Мин.	Critical
Ca²⁺ act.	80–120 ppm	60 ppm	<40 ppm
Mg²⁺ act.	20–40 ppm	15 ppm	<12 ppm

These are recommendations, not rules. A red indicator is a reason to pay attention, but an experienced agronomist may knowingly go beyond the limits.

Low	< 0.5 бар
Normal	0.5–0.9 бар
Acceptable	0.9–1.3 бар
Stress	1.3–1.8 бар
Сильный стресс	1.8–2.5 бар
Critical	> 2.5 бар

Калькулятор готовых удобрений для гидропоники

Scale

Analysis

Tools

Help

Ion activity

Share recipe