Clean City Engineering is a suite of digital solutions that make the urban environmental and utilities sector transparent, cost-effective, and fully manageable. We automate the monitoring of air, water, waste, infrastructure, and resources, reducing costs and improving residents' quality of life.
The program combines modern sensors, telemetry, IoT equipment, digital testing grounds, environmental monitoring, and smart management algorithms. It helps cities obtain accurate data, prevent incidents, and plan development based on analytics rather than assumptions.
Service overview
We are creating a unified digital platform for the city's environmental and municipal services:
- Complete digitalization of waste: routes, loading, landfills, reliable reporting.
- Environmental monitoring of air, noise, water, and automatic responses.
- Smart telemetry for municipal infrastructure and accident prediction.
- Transparent resource control — from meters to energy costs.
Key benefits
The platform brings together all of the city's environmental and utility data — from sensors and containers to landfills and pumping stations. Recommendations are generated based on analytics and AI, saving resources and preventing problems.
The solution is suitable for both small communities and large cities, providing scalability, data security, and process transparency.
Transparent processes
Real data, not reports. Control of every stage — from container to landfill.
Resource savings
Optimization of fuel, electricity, and infrastructure maintenance costs.
Predictive analytics
AI predicts risks, accidents, and exceedances of environmental indicators.
General information
We create modern waste management complexes — from sorting
to RDF/SRF and MBT. The city gets its own "recycling factory," which
reduces the load on the landfill and minimizes disposal.
The development is based on the analysis of the actual waste stream:
composition, seasonality, logistics. This allows designing capacity without
excessive costs.
Potential modules of the complex:
• separate collection and sorting of recyclables;
• MBT with biostabilization of organic waste;
• production of compost or soil blend;
• preparation of RDF/SRF for cement and energy companies;
• processing lines for municipal solid waste and construction
waste.
The economic part is key: the complex is integrated into
the collection system, tariff model, and infrastructure. We calculate
CAPEX/OPEX, launch scenarios, and the expected effect on reducing
landfilling.
Sewerage is the foundation of a city's sanitary safety. We
consider the system comprehensively: yard networks, street lines,
collectors,
pumping stations, stormwater drainage, and treatment
facilities.
Diagnostics reveal key problems:
• overloaded and emergency sections
• unauthorized discharges
• mixing of stormwater and domestic wastewater
• insufficient treatment and infrastructure wear
The engineering program includes:
• relieving network load, constructing new collectors and reservoirs;
• modernizing pumping stations, implementing dispatching and
monitoring;
• separating wastewater streams by purpose;
• updating treatment technology to modern standards;
• systems for reusing treated water.
The goal is a reliable, predictable, and cost-effective
system that is resilient to peak rainfall and increased load.
Sewage sludge and processing waste are not a problem, but a source
of
energy. We design the complete technological chain for managing
sludge and biogas.
Our solutions include:
• thickening, stabilization, and digestion;
• biogas reactors and biogas purification;
• combined heat and power (CHP) generation;
• preparing sludge for disposal or use as fuel;
• landfill gas collection and utilization systems at disposal
sites.
We integrate the energy potential of waste into the city's infrastructure:
boiler houses, CHP plants, district heating networks, and industrial
processes.
Abandoned territories are a city's hidden reserve. We
transform landfills, dumps, and industrial zones into safe and useful
spaces.
Stages of engineering reclamation:
• stabilization of the landfill or dump body;
• landform shaping and drainage system construction;
• gas venting and environmental monitoring;
• protective barriers and insulating layers;
• soil layer installation and landscaping.
Options for new use: parks, sports areas, technology
parks,
solar power plants, logistics and public facilities.
Reclamation becomes a tool for district development and improving the
quality
of life.
Our approach ensures that the project progresses from idea to
launch
without setbacks or unnecessary costs.
- Audit and diagnostics. Data collection, surveys, analysis of waste and wastewater flows. We build an objective picture of the "current state".
- Engineering concept. Several development scenarios with an assessment of CAPEX/OPEX, risks, timelines, and requirements for land and utilities.
- Feasibility study and design. Detailing the chosen scenario: schematics, layouts, technology, preparing for expert reviews and financing.
- Procurement and construction. Technical specifications, tender documentation, project support, author's and engineering supervision.
- Commissioning and operation. Startup, training, procedures, monitoring, and operational optimization.
This is how complex facilities are transformed into manageable infrastructure assets that enhance the quality of life and the city's economy.
