Views: 0 Author: Site Editor Publish Time: 2026-07-16 Origin: Site
With the continuous deepening of green and low-carbon transformation in the domestic infrastructure industry, green construction has become a mandatory standard for construction projects, municipal pile foundations, and rail transit construction. Environmental indicators such as dust control, noise control, energy consumption reduction, and solid waste reduction have been fully incorporated into the engineering assessment system. As the core large-scale equipment of pile foundation engineering, rotary drilling rig has complex operating conditions and long-term continuous operation. Traditional models generally have problems such as high fuel consumption, loud operating noise, obvious dust dispersion, and serious waste of mud, which are difficult to adapt to the current green construction standards. Under the dual background of dual carbon policy and normalized supervision of engineering environmental protection, the traditional extensive equipment operation mode has gradually been phased out. The industry has put forward new requirements for the energy-saving, environmental protection, and intelligence of rotary drilling rigs, forcing equipment to carry out comprehensive technological upgrades and green transformation, becoming the core breakthrough point for green construction of pile foundation engineering.
The power system is the core link in the environmental upgrade of rotary drilling rigs and the key to reducing construction carbon emissions. The traditional fuel powered rotary drilling rig relies on diesel drive, which consumes a large amount of fuel and generates a large amount of exhaust pollutants during operation, which does not meet the low-carbon control standards for construction sites. At present, the mainstream upgrading direction in the industry is mainly focused on hybrid and pure electric power substitution, as well as fuel system optimization. Oil electric hybrid models can automatically switch power modes according to different working conditions such as drilling, lifting, and walking. Low load working conditions rely on electric drive, greatly reducing diesel consumption and exhaust emissions; The pure electric rotary drilling rig achieves zero exhaust emissions and is suitable for construction in strictly controlled areas such as urban areas, residential areas, and ecological protection zones. At the same time, the upgraded intelligent fuel injection system and exhaust gas reprocessing device can effectively reduce the particulate matter and nitrogen oxide emissions of traditional models, greatly improve the energy utilization efficiency of equipment, and achieve green emission reduction from the source.
In response to prominent issues such as dust, noise, and mud pollution in traditional rotary drilling rig construction, the industry has completed multiple environmental improvements through structural and process optimization. In terms of dust control, the new model is equipped with intelligent spraying and a closed drill pipe structure, combined with a closed operation process, effectively suppressing the spread of dust from the drilling process and meeting the dust control standards for construction sites. In terms of noise control, the equipment adopts a silent hydraulic system, shock-absorbing frame structure, and noise reducing engine compartment design, greatly reducing operational noise and avoiding the problem of urban construction noise disturbance. In terms of mud resource utilization, the supporting intelligent mud circulation purification system can achieve the filtration, recovery, and secondary utilization of pile foundation construction mud, greatly reducing the discharge of waste mud and water resource waste, solving the pain points of mud solid waste pollution and resource loss in traditional construction, and meeting the core goals of green construction energy conservation, consumption reduction, pollution reduction, and efficiency improvement.
The upgrade of intelligent technology is an important support for rotary drilling rigs to adapt to green construction scenarios, completely changing the drawbacks of high energy consumption and large losses in traditional manual operations. The new generation rotary drilling rig is equipped with an intelligent vehicle control system, big data monitoring module, and automatic adaptation system, which can automatically adjust the speed, pressure, and feed rate according to the hardness of geological soil layers, drilling depth, and operating load, avoiding energy waste and equipment loss caused by ineffective operations. At the same time, the equipment is equipped with real-time monitoring functions for energy consumption, emissions, and operation data, which can collect real-time construction energy consumption and pollution emissions data, providing accurate data support for the assessment of green construction projects. Intelligent operation not only improves the accuracy and efficiency of pile foundation construction, reduces resource loss caused by rework, but also achieves refined and green control of the construction process, greatly enhancing the overall environmental benefits of the project.
The technological upgrade and environmental improvement of rotary drilling rigs is not only an iterative transformation of a single engineering equipment, but also an important manifestation of the implementation of green construction and the promotion of dual carbon goals in the infrastructure industry. The popularization of green and intelligent models has effectively solved the industry pain points of high pollution, high energy consumption, and high loss in traditional pile foundation construction, helping engineering projects pass green construction acceptance smoothly and reducing environmental protection rectification costs. From the perspective of the long-term development of the industry, the green upgrading of equipment has promoted the transformation of pile foundation construction mode from extensive to low-carbon and refined, improved the green construction system of infrastructure projects, and helped the construction industry achieve coordinated development of energy conservation, emission reduction, ecological protection and engineering construction, laying a solid equipment foundation for the high-quality, low-carbon and long-term development of the domestic infrastructure industry.