Biogas Power Plant Construction

Biogas Power Plant Construction

Integrated EPC Solutions for Renewable Gas & Power Generation

Overview

Biogas Power Plants are renewable energy facilities that convert​​ organic substrates​​ into​​ biogas​​ through anaerobic digestion and subsequently transform this gas into​​ electrical and thermal energy​​ using Combined Heat and Power (CHP) systems. Mechasol provides​​ end-to-end biogas power plant construction solutions, covering process design, mechanical systems, energy integration, and turnkey EPC execution.

Mechasol’s biogas solutions are engineered for​​ continuous operation, feedstock flexibility, and high plant availability, making them suitable for agricultural, industrial, and municipal applications.

Plant Configuration & Process Concept

Based on the provided document, Mechasol biogas plants are typically configured with:

• One or more​​ primary digesters

• Secondary digesters for increased gas yield

• Digestate storage units with gas-tight membranes

• Integrated CHP unit for power and heat recovery

The system is designed to ensure​​ stable biological conditions, controlled gas production, and optimized energy utilization.

Feedstock Types & Feeding Systems

Feedstock Options

Mechasol biogas plants are engineered to process a wide range of substrates, including:

• Agricultural crops (NaWaRo – renewable raw materials)

• Animal manure and slurry

• Food and biowaste

• Industrial organic residues

Each feedstock type influences digester sizing, heating demand, and equipment selection.

Feeding Systems Engineering

According to the document, feeding systems may include:

• Solid feeders for silage and solid biomass

• Pump-based feeding systems for liquid or pumpable substrates

• Pre-treatment units such as grinders and pasteurization systems (for biowaste)

Proper feeding system design is critical for​​ process stability and digester performance.

Digesters & Storage Systems

Anaerobic Digesters

Digesters are designed as:

• Insulated, gas-tight concrete or steel tanks

• Equipped with internal heating coils or external heat exchangers

• Designed for mesophilic operation (~38–40°C)

Double-walled digesters with leakage detection may be applied for biowaste applications, as highlighted in the document.

Digestate Storage

Digestate storage tanks are equipped with:

• Flexible gas storage membranes

• Integrated agitation systems

• Controlled discharge for agricultural or industrial reuse

Pumping & Transfer Systems

The document highlights that​​ positive displacement pumps​​ are predominantly used, including:

• Progressive cavity pumps (high pressure, low maintenance)

• Rotary lobe pumps (easy maintenance, higher wear)

Pump selection is based on:

• Dry matter content (<12% for pumpable substrates)

• Particle size (<12 mm)

• Required flow rate and pressure

These systems ensure reliable substrate circulation between digesters and storage units.

Heating System & Thermal Management

Maintaining digester temperature is essential for biological efficiency. Mechasol designs integrated heating systems utilizing:

• Hot water circuits

• Heat recovered from CHP engines (engine jacket water, exhaust gas, intercoolers)

From the document example, a 625 kWel biogas plant typically allocates recovered heat for:

• Substrate heating

• Digester temperature maintenance

• Pasteurization units

• External heat consumers (greenhouses, industrial users)

Agitation & Mixing Systems

Efficient mixing prevents sedimentation and enhances gas yield.

Agitator Types

• Submersible agitators (adjustable direction and height)

• Dry substrate agitators for fibrous or low-density feedstock

Agitators are typically operated intermittently (e.g. 10 minutes per hour) and synchronized with feeding cycles.

Gas Handling & Storage

Biogas produced in the digesters is:

• Collected under gas-tight membranes

• Routed to CHP units via controlled piping

• Monitored for pressure, flow, and safety

Gas storage membranes act as​​ buffer volumes, stabilizing CHP operation.

CHP Unit & Power Generation

Combined Heat and Power (CHP)

The CHP system converts biogas into:

• Electrical energy for grid export or self-consumption

• Thermal energy for digester heating and auxiliary use

Mechasol integrates:

• Gas engines

• Heat recovery from exhaust gas and cooling circuits

• Electrical synchronization and grid connection systems

This configuration maximizes​​ overall plant efficiency.

Pasteurization & Hygienization Systems

For biowaste applications, EU regulations (e.g. EU 1774) require:

• Heat treatment at​​ 70°C for 1 hour

• Controlled heating and mixing tanks

• Dedicated pumping systems

Mechasol designs pasteurization units as​​ fully integrated process modules, ensuring compliance and operational reliability.

Automation, Safety & Control

Biogas power plants are equipped with:

• PLC-based automation systems

• Gas safety and overpressure protection

• Temperature, pressure, and level monitoring

• Emergency shutdown and alarm systems

Automation ensures​​ stable biological operation and safe energy production.

EPC & Construction Scope

Mechasol delivers biogas power plants as:

• Equipment supply packages

• Modular skid-mounted systems

• Full EPC turnkey construction projects

Scope includes:

• Process & mechanical engineering

• Civil and structural coordination

• Electrical & instrumentation works

• Installation, commissioning, and operator training

Mechasol Value Proposition

• Proven experience in biogas plant construction

• Strong mechanical and thermal engineering capability

• Optimized integration of feeding, digestion, and CHP systems

• Compliance with EU and international standards

• Long-term operational reliability focus

Summary

Mechasol Biogas Power Plant Construction solutions provide a​​ robust, efficient, and sustainable approach​​ to renewable energy generation. By integrating advanced digestion technology, reliable mechanical systems, and optimized CHP energy recovery, Mechasol delivers biogas plants that achieve​​ high availability, stable operation, and maximum energy output.