Search Results (4)

Salvia fruticosa, S. officinalis, S. pomifera ssp. pomifera, S. ringens, and S. tomentosa have multiple potential uses in floriculture and the pharmaceutical industry, serving sustainable horticulture and landscaping. The aim was to develop effective asexual propagation protocols for the exploitation of the above species. Thus, the effect of cutting origin, season of cutting collection, and various indole-3-butyric acid (IBA) treatments on rooting stem cuttings was examined. Shoot-tip cuttings were collected either from greenhouse or wild mother plants, in November, February, May, and August and were treated either with Rhizopon dusting powder 0.5% w/w IBA or immersion for 1 min in 0–6000 mg L⁻¹ IBA solution. The cuttings were then placed for rooting in a 1:1 (v/v) peat–perlite substrate, under mist, for 2 weeks and on the greenhouse bench in semi-shade for another 4 weeks. More efficient rooting was succeeded by cuttings, (i) of S. tomentosa, followed by S. fruticosa and S. pomifera ssp. pomifera, while S. officinalis was the most difficult to root, (ii) from greenhouse plants, (iii) collected in autumn or spring, and (iv) treated with Rhizopon dusting powder or 1500 mg L⁻¹ IBA solution. Higher dry weight values of the rooted cuttings were found in autumn. Conclusively, rooting of Salvia spp. cuttings depended on species, mother plants’ physiological state, time of cutting collection, climatic conditions, and auxin application. Full article

Spray dust removal is currently the primary method of dust control technology, while it exhibits low efficacy in dust removal capability. A Phase Doppler Particle Analyzer (PDPA) experimental system was constructed to study the influence of dust suppressants on the coupling behavior of dust–mist particles using comparative methods. According to the experimental results of the atomization effect of the spray, the Sauter Mean Diameter (D32) of the mist size of the dust suppressants showed an increasing trend compared to water. This trend became less obvious with an increase in spray pressure, and a reduction in the surface tension of the dust suppressants promoted an increase in the particle size distribution of water mist. According to the test results of the dust–mist coupling behavior experiment, compared with water, the coupling efficiency of Dodecyl Alcohol (DA), Alkylphenol Polyoxyethylene (OP-10), and Sodium Dodecyl Sulfate (SDS) increased by 27.0%, 20.3%, and 15.0%, respectively. This indicates a proportional relationship between the wetting performance of the dust suppressants and the dust–mist coupling rate and an inverse relationship between the surface tension of the dust suppressant solutions and the dust removal efficiency. The research findings hold major possibilities for enhancing the dust removal efficiency. Full article

Cyclones serve as essential devices in various industries for the removal of particulate matter from gases and liquids, contributing to improved equipment efficiency and longevity by mitigating the wear and damage caused by dust and small particles. Uniflow cyclones offer improved accessibility due to their predominantly horizontal orientation. This characteristic enhances the ease of maintenance and operation. This study focuses on investigating the collection efficiency of uniflow centrifugal cyclones for oil mist and fine dust particles ranging from $0.5$$\mathsf{\mu }\mathrm{m}$ to 29 $\mathsf{\mu }\mathrm{m}$ in diameter. The investigation is based on the specific vane angles ${\beta }_v$ of a swirl inducer from 0${}^{\circ }$ to 60${}^{\circ }$ at a flow rate $\dot{V}$ of 130 $\mathrm{L}$${\mathrm{s}}^{-1}$. The measured collection efficiencies are compared with theoretical efficiencies calculated using six different empirical approaches. The different results for oil and fine dust particles are discussed. Comparison of the experimental results with the empirical models demonstrated that certain models closely matched the observed separation efficiencies for different aerosols and vane angles ${\beta }_v$ (respectively, their induced radial velocities V). Through a systematic examination, this research aims to provide more insight into the validity of empirical approaches for different particle types and compositions using a uniflow-cyclonic system. Full article

Because the road surfaces of the underground roadways in coal mines are slippery, uneven, with dust and water mist, and the noise and light illumination effects are significant, global positioning system (GPS) signals cannot be received, which seriously affects the ability of the odometer, optical camera and ultrasonic camera to collect data. Therefore, the underground positioning of coal mines is a difficult issue that restricts the intellectualization of underground transportation, especially for automatic robots and automatic driving vehicles. Ultra-wide band (UWB) positioning technology has low power consumption, high performance and good positioning effects in non-visual environments. It is widely used in coal mine underground equipment positioning and information transmission. In view of the above problems, this research uses the WLR-5A mining unmanned wheeled chassis experimental platform; uses two UWB receivers to infer the position and yaw information of the vehicle in the underground roadway through the method of differential mapping; and tests the vehicle on the double shift line and quarter turn line in the GAZEBO simulation environment and on the ground simulation roadway to simulate the vehicle meeting conditions and quarter turning conditions in the underground roadway. The positioning ability of the method in these two cases is tested. The simulation and test results show that the vehicle position and attitude information deduced by two UWB receivers through the differential mapping method can basically meet the requirements of underground environments when the vehicle is traveling at low speeds. Full article