The Hobart 00-329311 Tube Chemical Pump is a specialized fluid transfer device engineered for precise chemical handling within commercial foodservice operations. Representing Hobart’s commitment to durability and technical excellence, this OEM pump features a compact design with dimensions of 4.95" width, 5.95" depth, and 0.8" height, making it suitable for integration into various chemical dosing systems. Crafted from resistant materials to withstand harsh cleaning agents, it is designed to ensure consistent performance in demanding environments, supporting accurate chemical dispensing with a maximum capacity aligned with industrial standards, ideal for restaurant, bakery, and food processing applications requiring reliable automation.
Top Hobart 00-329311 Features
This chemical pump offers precise liquid flow control with a durable construction, optimized for integration into automated cleaning and sanitation systems. Its compact size simplifies installation in tight kitchen spaces, and corrosion-resistant materials ensure long-term operation. Designed for easy disassembly and maintenance, it supports quick replacements, reducing downtime. Suitable for precise chemical dosing in commercial kitchens and large-scale food production, it enhances workflow efficiency by maintaining consistent chemical delivery under moderate throughput conditions.
- Flow control: Provides accurate chemical dispensation for sanitation processes
- Material grade: Constructed from corrosion-resistant polymers and stainless steel
- Durability: Built with high-grade materials rated for chemical exposure
- Ease of maintenance: Designed with quick disconnect fittings for simplified disassembly
- Application fit: Ideal for integration with existing chemical injection systems in commercial kitchens
Suitable for chemical dosing in restaurant and food processing facilities requiring reliable flow accuracy.
00-329311 Technical Specs
The Hobart 00-329311 Tube Chemical Pump operates with a compact, self-contained design featuring a lightweight construction of 0.08 lbs, crafted from durable materials suitable for chemical handling. It requires no specific electrical requirements as it is primarily a mechanical dosing component, designed for easy installation within chemical flow systems. Its construction ensures resistance to temperature fluctuations typical in sanitation processes, supporting consistent operation across various environmental conditions. The pump’s dimensions facilitate integration into confined spaces, supporting moderate throughput operations typical of food establishments. It is designed for compatibility with standard chemical injection setups, simplifying maintenance routines and replacement procedures. The material and design ensure compatibility with cleaning routines involving chemical solutions, maintaining sanitation while supporting workflow efficiency.
- Material: Corrosion-resistant polymers and stainless steel
- Weight: 0.08 lbs for easy handling and installation
- Dimensions: 4.95" W x 5.95" D x 0.8" H for space-efficient placement
- Application use: Suitable for chemical injection in sanitation and cleaning systems
- Installation: Compatible with standard chemical transfer lines and systems
- Temperature tolerance: Supports typical temperature ranges in commercial sanitation
Electrical requirements: Not applicable, designed for mechanical operation
Construction & finish: Polymer and stainless steel for chemical compatibility
Cleaning & maintenance: Quick disconnect fittings facilitate easy cleaning and replacement
Compatibility: Fits standard chemical injection configurations for reliable dosing
Usage scenario: Installs seamlessly into existing sanitation systems in commercial foodservice establishments
What is a commercial chemical pump
A commercial chemical pump is a precision fluid transfer device used in commercial kitchens and food production facilities to accurately dispense cleaning and sanitation chemicals. The Hobart 00-329311 Tube Chemical Pump exemplifies this by providing reliable, consistent flow control with durable, corrosion-resistant construction, designed for integration into chemical dosing systems. Typically installed in sanitation stations or automated cleaning workflows, this pump supports moderate throughput and ensures safety and efficiency in chemical handling, making it an ideal component for ensuring hygiene standards in foodservice environments.
Top chemical pumps for moderate foodservice operations
Built with proven durability, the Hobart 00-329311 Chemical Pump supports precise chemical dosing in commercial kitchens, ideal for moderate throughput sanitation workflows. Manufactured by Hobart, it’s suitable for installation in food processing or restaurant cleaning systems, ensuring consistent performance. Its compact form factor and corrosion-resistant materials make it a reliable choice for food industry applications requiring accurate chemical transfer and easy maintenance.
- Moderate operation — for standard cleaning station workflows
- Kitchen integration — easily installed in tight sanitation spaces
- Sanitation category — suited for chemical dosing in food environments
- Medium workload — optimized for daily cleaning routines in restaurants
- Chemical transfer — ensures precise and safe chemical delivery
Why Choose Hobart 00-329311
Why Choose Hobart 00-329311 Tube Chemical Pump? Its robust construction with corrosion-resistant materials offers superior durability compared to competitor models, while its compact, self-contained design supports seamless integration into existing sanitation systems. Featuring straightforward disassembly for maintenance and reliable chemical flow control, this pump enhances operational efficiency and safety in commercial foodservice environments, outperforming similar pumps in longevity and ease of use.
- Enhanced durability through high-grade materials
- Compact design for flexible installation
- Reliable chemical flow control for sanitation accuracy
- Easy maintenance with quick disconnection features
- Designed specifically for commercial kitchen chemical injection systems
