1000l Brewery Equipment

1000L Brewery Equipment

Manufacturer

Complete 1000L commercial brewery equipment built around a 1000L 3-vessel brewhouse (Mash + Lauter + Kettle/Whirlpool), matched fermentation capacity, industrial glycol cooling, CIP cleaning, and practical control architecture—engineered for stable daily production and future expansion.

1000L Brewhouse:Φ1560×2500mm vessels
1500L HLT • 1000L FV × 6
15kW Chiller + 3000L Glycol Tank

What’s Included in the 1000L Brewery Equipment System

Procurement-friendly configuration designed as a connected brewing architecture—brewhouse throughput, fermentation capacity, cooling load, cleaning efficiency, and controls are matched to minimize commissioning risk and stabilize output.

Standard System Configuration (Reference)

Malt milling: XW-G3 Malt Miller 500kg/hr × 1
Brewhouse: 1000L 3-Vessel (Mash + Lauter + Kettle/Whirlpool)
HLT: 1500L Hot Water Tank × 1
Fermentation: 1000L Fermenters × 6 sets
Cooling: 3000L Glycol Tank + 15kW Chiller
CIP: Portable CIP 100L (5kW heating) + SS cabinet
Controls: Brewhouse piano cabinet (digital) + options
Heating: Gas/Oil steam boiler 100kg/hr, 0.7MPa
Key accessories: PHE, IFM flow meters, oxygenation, yeast adding, sanitary pipes/valves

Add-ons: BBT, more fermenters, PLC/HMI automation, packaging integration.

For Engineering Teams

We can provide layout suggestions, utilities lists, and integration notes to reduce on-site commissioning time.

1000L 3-Vessel Brewhouse Configuration

Commercial brewhouse designed for stable extraction, fast lautering, consistent boiling, and repeatable whirlpool separation. Built with sanitary TIG welding, polished internal surfaces, and steam jacket heating.

Mash Tank — 1000L × 1

Dimension: Φ1560×2500mm
Material: SUS304 inner TH 4mm / outer TH 2mm; dish head TH 4mm
Finish: inside polished to 0.4μm; pickling & passivation (8K optional)
Insulation: PU 80mm
Heating: steam dimple jacket (test 0.4MPa; working <0.3MPa); ~1℃/min
Mixing: top motor + VFD
CIP & sensor: 360° spray ball + PT100

Lauter Tun — 1000L × 1

Dimension: Φ1560×2500mm
Material: SUS304 inner TH 3mm / outer TH 2mm
Finish & insulation: 0.4μm polish; PU 80mm
Process support: grant tank + wort sight glass to improve filtration stability
CIP & sensor: 360° spray balls (2 pcs) + PT100

Kettle / Whirlpool — 1000L × 1

Dimension: Φ1560×2500mm
Heating: steam jacket (bottom + cylinder), separable manual control
Whirlpool: tangent inlet; cone outlet; bottom center discharge
Steam jacket: test 0.4MPa; working <0.3MPa
CIP & sensor: 360° spray ball + PT100

Hot Water Tank (HLT) — 1500L × 1

Dimension: Φ1460×2250mm (customizable)
Material: SUS304 inner TH 3mm / outer TH 2mm; inside 0.4μm
Insulation: PU 80mm
Pump: 5 m³/hr sanitary SUS304; ABB/WEG motor options

1000L Fermentation Tanks (×6) for Commercial Brewing

Hygienic construction, pressure-rated accessories, and stable glycol cooling help reduce batch variation and labor dependency in daily production.

1000L Conical Fermenter — 6 sets (Reference)

Dimension: Φ1260×2550mm (customizable)
Finish & insulation: inside 0.4μm polish; PU 80mm
Pressure: tank & jacket working <0.2MPa; test: tank 0.2MPa / jacket 0.4MPa
Cone: 60°
Cooling: dimple jackets (bottom + side), 35% glycol, -5℃
Standard accessories: dry hop 4″, manway, spunding (0.2–2.2bar), safety valve, sample, racking arm, CIP, PT100

Fermentation Capacity Planning (How Many 1000L Fermenters Do You Need?)

For a 1000L brewery, fermentation capacity—not brewhouse size—often becomes the first production bottleneck. A practical fermenter plan ensures stable weekly output, avoids rushed tank turnover, and keeps your cooling and CIP systems properly sized.

Fast Sizing Formula (Procurement-Friendly)

Recommended fermenter volume ≈ Batch Size × Fermentation Days ÷ Brewing Interval (days)

Example: If you brew 1000L/day, and fermentation averages 14 days, you need about 14,000L effective fermentation volume.

Practical Recommendations

Start-up craft breweries: 1000L FV × 4–6 (balanced launch)
Stable distribution output: 1000L FV × 6–10 (supports consistent weekly packaging)
High-turnover / multiple SKUs: add BBT + extra FV to avoid blocking fermentation tanks during conditioning

Brewing Pattern	Typical Fermentation Cycle	Suggested FV Qty (1000L)	Notes
2 brews / week	12–14 days	4–6	Good for taproom + small distribution
3–4 brews / week	12–14 days	6–8	Most common commercial planning range
5+ brews / week	10–14 days	8–12	Recommend BBT + stronger glycol load

Actual FV quantity depends on beer styles (ale/lager), conditioning time, dry-hopping schedule, cooling capacity, and packaging workflow.

Utilities: Glycol Cooling, CIP, Controls & Boiler

Matched utilities reduce commissioning risk. Cooling capacity, CIP coverage, and controls are designed to support stable daily production and scalable expansion.

Glycol Cooling System (Industrial Grade)

Glycol tank: 3000L, SUS304, inside 0.4μm, insulation 80mm
Chiller capacity: 15kW (12900Kcal/h), outlet -5℃, ambient 35℃
Refrigerant: R407C; compressor options Copeland/Danfoss/Sanyo
Noise: 61dB(A)
Distribution: DC24V solenoid per tank, insulated supply/return loops, labeled pipes

Portable CIP Unit — 100L

Caustic tank: 100L SUS304 TH2mm, inside 0.2–0.4μm, heating 5kW
Control cabinet: SUS304, CHINT (Schneider/ABB/Omron optional), VFD optional
Use: consistent cleaning cycles for tanks and pipelines

Control System (Digital Standard, PLC Optional)

Brewhouse cabinet: Schneider parts, Danfoss VFD, Anthone temp controller
Functions: pump on/off, pump speed, agitator motor, manual heating switches
Options: PLC + touch screen, remote flow meter display, upgraded electrical brands

Steam Boiler (Including Oil-fired, Gas-fired and Electric Boilers)

Parameters below are based on Gas/Oil Steam Boiler

Evaporation: 100 kg/hr; pressure: 0.7MPa; steam 170℃
Fuel: natural gas 7 m³/h or diesel 8 L/h
Control: ON-OFF; AC220V 50Hz (customizable)

1000L Brewery Equipment – Technical Summary

Engineer-friendly summary for internal review and supplier comparison.

Model	1000L
Max. Malt Feeding Quantity	250 kg
Maximum First-Wort Concentration	22 °P
False-Bottom Load	200 kg/m²
Heating Method	Electric / Steam / Direct Fire
Hot-Water Pump	5 T/h, 1.5 kW
Wort Pump	5 T/h, 1.5 kW
Glycol Water Pump	4 T/h, 0.75 kW
CIP Pump	4 T/h, 0.75 kW
Regulations / Conformity	CE · UL · ISO · TUV · ASME
Footprint	35 m²
Total Power	45 kW
Automation Level	Manual / Semi-Automatic
Container Transportation	1 × 40HQ

1000L Brewery Equipment Details

Utility Requirements Checklist (Before You Request a Quote)

To avoid delays during installation and commissioning, we recommend confirming your site utilities early. Share this checklist with your engineering team—our proposal will match your local power, steam, water, and drainage conditions.

Quick Checklist (Send Us These Details)

Power supply: voltage / phase / frequency (e.g., 380V 3-phase 50Hz)
Steam source: boiler type, working pressure, available fuel (gas/oil/electric)
Water supply: flow rate, pressure, temperature; soft water / RO if required
Cooling environment: chiller location, ventilation, ambient temperature range
Compressed air (optional): for pneumatic valves or packaging integration
Drainage: floor slope, trench drain, CIP discharge route
Site access: door height/width, forklift access, installation path
Layout file (optional): CAD/PDF drawings or simple floor plan

Engineer-Friendly Summary Table

Utility Item What to Confirm Why It Matters Electric Power Voltage / phase / frequency Matches motors, VFDs, chiller, and control cabinets Steam / Heating Boiler fuel + working pressure Determines brewhouse heating performance and operating cost Water Supply Flow rate, pressure, water quality Impacts brewing stability, cleaning cycles, and heat exchanger performance Cooling Environment Chiller location + ventilation Ensures rated cooling output under real ambient load Drainage CIP discharge route, floor slope Prevents downtime and hygienic issues during cleaning Site Access Door size, installation path Avoids installation delays and extra lifting costs

Tip: If you don’t have a layout yet, send a site photo + approximate room dimensions—our engineers can suggest a preliminary arrangement.

Expansion Path: Scale Your 1000L Brewery to 2000L Without Rebuilding

A well-designed 1000L brewery should not be a dead end. Our systems are engineered with a clear expansion path, allowing you to increase capacity to 2000L or beyond by adding tanks and utilities—without replacing your existing brewhouse.

How Expansion Works (Procurement Logic)

Brewhouse remains unchanged: the 1000L brewhouse continues daily operation
Capacity increases via fermentation volume: add more 1000L tanks
Utilities scale with load: cooling and CIP upgraded as needed

Common Expansion Options

Add fermentation tanks: 6 FV → 10–12 FV (most common upgrade)
Add Bright Beer Tanks (BBT): faster tank turnover, better packaging flow
Upgrade utilities: higher chiller capacity, larger glycol tank, stronger CIP circulation

Stage	Brewhouse	Fermenters	BBT	Cooling	Typical Output
Initial	1000L	6 × 1000L	–	15 kW	Taproom / local sales
Growth	1000L	8–10 × 1000L	1–2	20–25 kW	Regional distribution
Expansion	1000L	10–12 × 1000L	2–3	30 kW+	Contract / wide market

Expansion planning is considered during the initial 1000L system design, including pipe sizing, glycol headers, control cabinet capacity, and floor layout allowance.

Why Choose METO

We’re not only a supplier—we support your brewery project from system configuration to commissioning and long-term operation. As a brewery equipment manufacturer, we focus on process compatibility, hygienic build quality, and scalable system design.

Process Understanding

Configuration based on brewing workflows, not generic tank lists.

Custom Engineering

Layouts, utilities lists, and integration notes for your site.

Factory-Direct Manufacturing

Better cost control, faster response, clearer accountability.

Long-Term Support

Training, spare parts guidance, and expansion planning support.

Quality Checklist (Typical)

Malt Handling → milling & transfer preparation

Brewhouse → mash/lautering + boil/whirlpool

Cooling & Transfer → heat exchange to fermentation temp

Fermentation → jacketed conical fermenters for stability

Conditioning (Optional) → BBT / maturation

CIP → clean-in-place hygiene standardization

Packaging (Future-ready) → keg/bottle/can integration

Buyer Tip

Choose a 1000L micro brewery equipment layout that supports cleanability, stable fermentation temperature control, and planned expansion (more fermenters / BBT / packaging).

Applications

The 1000L Brewery Equipment Size Is Commonly Selected for Professional Small-to-Mid Scale Production, Balancing Commercial Output, Operational Control, and Future Expansion.

Brewpubs & Restaurant Breweries

For brewpubs and restaurant-based breweries, the 1000L system provides sufficient output to support on-site consumption while maintaining fresh beer turnover. The compact yet professional layout fits well into hospitality environments, allowing breweries to brew in-house, control beer freshness, and enhance brand experience. Transparent piping layouts and stainless steel vessels also serve as a visual feature, strengthening customer engagement while delivering reliable daily production performance.

Independent Craft Breweries

Designed for independent craft breweries targeting local and regional markets, the 1000L brewery system offers a practical balance between production capacity and operational flexibility. With the ability to support multiple brews per week, this system enables consistent beer quality, controlled production costs, and scalable growth. The professional-grade brewhouse, fermenters, and control system allow brewers to transition smoothly from pilot-scale to stable commercial production without over-investment at the early stage.

Pilot Production & Expansion-Ready Facilities

The 1000L brewery equipment is frequently used as a pilot or pre-expansion production system by breweries planning future scale-up. Its engineering logic, vessel sizing, and process flow closely match larger commercial systems, making recipe transfer and capacity expansion straightforward. This allows brewers to validate recipes, refine production processes, and prepare for larger brewhouse investments with minimal technical risk.

FAQ — 1000L Brewery Equipment (Engineering & Procurement)

Quick answers for engineering and procurement teams evaluating a 1000L brewery equipment project.

Is this a complete brewing system or only core vessels?

This is a complete, ready-to-run brewing system, designed to cover brewing, fermentation, cooling, cleaning, and basic controls as one integrated solution, reducing the need for third-party sourcing.

Can the system be adapted to local electrical standards or preferred brands?

Yes. Electrical components, motors, and control configurations can be customized to match local standards and buyer-preferred brands, helping ensure compliance and easier long-term maintenance.

What level of technical support is included after purchase?

Support includes project planning, remote commissioning, and operator training, helping customers start production smoothly without relying solely on local integrators.

How are warranty and spare parts handled?

The system includes standard spare and wear parts, with clear warranty coverage by component type, supporting predictable maintenance and reduced downtime in early operation.

Can this 1000L system be expanded in the future?

Yes. The system is designed for capacity expansion by adding tanks and utilities, allowing production growth without replacing the existing brewhouse.

Get a Customized 1000L Brewery Equipment Proposal

Share your beer styles, target output, utilities, and layout constraints. We’ll provide a matched configuration, expansion plan, and a quotation package for engineering & procurement review.

Country / required standards (CE / PED / UL, etc.)
Batch size target & weekly output
Fermenter quantity preference (6 sets or more)
Heating preference (gas/oil/electric) & local voltage
Packaging plan (taproom / distribution)

Need packaging soon?

We can design the 500L system to be packaging-ready (keg/bottle/can integration) to avoid future rework.

Request Your Proposal

Fill in the essentials—our team will respond with a technical proposal.

Tip: Attach layout drawings and utilities list for faster engineering confirmation.

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