Electric Crane Research Articles

Greenhouse gas mitigation measures for seaport sub-sector in Ho Chi Minh City

This article is based on surveying the current operating status of equipment/facilities at seaports in Ho Chi Minh City, the amount of fuel/energy consumed, along with the study of experiences in some countries in the region to assess the opportunity/potential to reduce GHG emissions when replacing with low emission equipment. Calculation results of GHG emission reductions when using electric gantry cranes (RTGs), LED lighting systems on the yard or installing solar panels together with the Measurement - Reporting - Verification (MRV) to monitor and evaluate GHG emission reductions for the seaport sector is presented at the end of the article.

Optimal Control of Air Conditioning Systems by Means of CO2 Sensors in Electric Vehicles.

Considering the consistent reduction in battery range due to the operation of the Heating Ventilation and Air Conditioning (HVAC) system, this study deals with the CO2 measurement inside the cabin of an electric crane and aims to reduce the energy consumption through the control of the air recirculation. A control strategy was defined and tested through an experimental set-up where the presence of a driver was simulated as a source of CO2. The cabin was placed inside a climatic wind tunnel and the benefits of this control strategy on the HVAC system energy consumption were assessed, both in the heating and the cooling modes. In addition, we discussed the optimal position of the CO2 sensor inside the cabin by comparing the results obtained from some sensors placed around the cabin occupant with the ones logged by three sensors in the breathing zone. Finally, an investigation of the uncertainty of the indirect measurement of the leakage flow and its dependence on the number of CO2 sensors installed in the cabin was made through the Monte Carlo method.

Design of the Power of an Electric Lifting Motor for a Single Girder Bridge Crane with a 500 Kg Load Capacity

Abstract An electric hoist could be considered as the most important component of an electric overhead crane. Electric hoists are material handling equipment used for lifting, lowering, and transporting materials and products. They are powered by an electric motor and have a controller to adjust the lifting parameters. Three-phase induction motors are most often used as electric lifting motors for bridge cranes. This paper concerns the design of the power of the electric lifting motor for an electric hoist of the single girder bridge crane with the 500 kg load capacity. It represents the design of the electric lifting motor according to a commonly used scheme for the design of electric motors, from the power at a uniform load to the relative load of the motor. Based on the input data, the necessary motor parameters are calculated using Microsoft Excel. The main parameter is the static power of the motor, the calculated value of which is 0.823 kW. Based on the value of this power, a three-phase induction motor 1.1 kW, MS90-4 is selected. This electric lifting motor is suitable for the above-mentioned bridge crane, as it meets the condition of torque overload.

Application of millimeter wave radar in safety obstacle avoidance of crane in electric power construction

When the traditional electric construction crane safely avoids obstacles, obstacles are only detected according to the parameter estimation results, which is greatly affected by the external environment and takes a long time to avoid obstacles. Aiming at the above problems, the safety obstacle avoidance method of electric construction crane based on millimeter wave radar is studied. The millimeter wave radar is used to obtain the millimeter wave radar detection signal for crane safety obstacle avoidance. According to the impulse response of millimeter wave radar detection echo, the obstacle location mark and distance estimation are carried out, and the distance and azimuth information between the crane and the obstacle are calculated. By optimizing the safe obstacle avoidance path of electric construction cranes, the safe obstacle avoidance of electric construction cranes can be realized. Through comparative simulation experiments, it is verified that the design method takes less time to avoid obstacles, has higher efficiency, and does not collide with obstacles in the workspace in the process of movement, which verifies the effectiveness of the method.

Design and Analysis of Electric Crane with 500Kg Material Handling Capacity

In industry material handling is very important. For that purpose efficient machine is needed. In modern days the electric crane plays important role to fulfil that requirement. It is economical, effective, less time consuming, more safety, and flexible for uses. In industry the safety is most important factor for any material handling machine which deals with the heavy load depending on the capacity. In electric crane the safety keeps on first priority. In this paper we design the electric crane which is more economical, less time consumable, with more safety and the easy to operate. It has two control units, one is at crane frame and one is at the remote location. This crane is able to operate by the single operator far from the crane and also can operate directly from the crane frame itself. Its lifting capacity is up to 500kg. according to load we carried out the load calculations for the crane frame or body & we created a 3D CAD model. Every component should able to deal with that load. To ensure that we carried out the analysis of the whole assembly in ANSYS 19.2. In analysis we found that the whole assembly is able to handle the load which we suppose to apply on it. We implement the pulley reduction to reduce the load on motor and gearbox as well. We tried to keep crane more compact in size so that it consume less space in industry.

Anti-swing control of a hydraulic loader crane with a hanging load

In this paper, anti-swing control for a hydraulic loader crane is presented. The difference between hydraulic and electric cranes are discussed to show the challenges associated with hydraulic actuation. The hanging load dynamics and relevant kinematics of the crane are derived to create the 2-DOF anti-swing controller. The anti-swing controller is added to the electro-hydraulic motion controller via feedforward. A dynamic simulation model of the crane is made, and the control system is evaluated in simulations with a path controller in actuator space. Simulation results show significant reduction in the load swing angle during motion. Experiments are carried out to verify the performance of the anti-swing controller, showing good suppression of the payload angle in practice.

Анализ управления профессиональными рисками на предприятиях при эксплуатации грузоподъемного оборудования

The model for assessing the levels of occupational risks was introduced and is used at the mechanical engineering enterprises during lifting equipment operation. The analysis of injuries carried out six months after the start of its use and familiarization of employees with the register and the level of hazards showed a decrease in risk levels in relation to previous periods. The results of the study of the procedure for managing occupational risks when working on three types of cranes are presented: electric bridge crane; gantry crane and single-girder electric supporting bridge crane. The first two listed cranes are installed at hazardous production facilities. After drawing up a plan for assessing occupational risks at the stage of risk identification, the method of questionnaires was used to collect information about production processes and determine the register of hazards. To analyze the work of the occupational health and safety management system, a multi-level control of the technological process and ensuring its safety was introduced. In practice, the relevance and availability of the Fine — Kinney method for assessing the levels of occupational risks was confirmed. When studying the significance of the impact of the procedures (elements) of the occupational health and safety management system on the probability of a hazard and, consequently, on the final level of occupational risk, the method of expert assessments was used. The methods for formalizing assessment results proposed and implemented in the organizations reflect all the stages of the process and provide answers at any stage of the study of the occupational risk levels. The measures developed based on the results of the assessment of occupational risk levels allow to maintain safe working conditions and prevent the occurrence of hazards that lead to injuries at work.

Assessment of virtual reality based safety training simulator for electric overhead crane operations

In this paper, we have assessed the efficiency and effectiveness of a developed immersive VR-based safety training simulator that allowed procedural training to electric overhead crane (EOT) operators. The primary objective of the training simulator is to help the novices to understand the sequence of operations as well as manage the potential hazards while working. Two types of assessment are carried out: simulator effectiveness and safety training effectiveness. We have developed three experimental setups, namely practice environment, familiarization environment, and virtual workplace environment, for improving acquaintance, learning of navigation and control, and operational and safety training, respectively. 19 operators from an integrated steel plant have participated in the experiments; among them, 16 are young operators (average age: 32.68 years, average experience: 4 years) and 3 are experienced operators (average age: 49.66 years, average experience: 12.5 years). The participants have provided their responses on the effectiveness of the simulator using the presence, system usability, and simulation sickness questionnaires. Cronbach’s alpha (>0.7), concordance (>0.5), and convergent validity (>0.7) show that the responses are consistent and reliable. Further, the t-test shows that the simulator is equally effective for both young and experienced operators. For validation purposes, the proposed VR simulator’s performance is compared with the desktop simulator using t-test and signal to noise (S/N) ratio and the results show that the VR simulator is better than the desktop simulator. Finally, the safety training effectiveness is assessed based on the improvement of identifying accident path elements for five tasks. 18 hazardous elements (HEs) and 14 initiating mechanisms (IMs) were identified by the operators before VR-based safety training and additional 10 hazardous elements (HEs) and 13 initiating mechanisms (IMs) were identified after the training. Further, hazard-identification improvement index is proposed as a quantitative measure for safety training effectiveness. Then, task module prioritization analysis using analytic hierarchy process (AHP) was done and the results show that tasks 2 and 5 need more safety training compared to the other three tasks.-

Nonlinear Dynamic Analysis of Lifting Mechanism of an Electric Overhead Crane during Emergency Braking

Mechanical brakes are essential for electric cranes when emergency braking occurs. This paper presents, for the first-time, a dynamic response analysis of emergency braking events of electrical cranes that has modelled crane components as flexible and rigid bodies. Based on the Hamilton principle, a nonlinear and non-smooth dynamic model is derived from a modified Lagrangian function and the virtual work of non-conservative forces. The dynamic responses of a 32-ton overhead travelling crane during the emergency braking process of its lifting mechanism with two service brakes determined by simulating realistic operations. The numerical results show that the loads acting on components of the crane during the braking process depend on the braking capacity and the action time of the mechanical brakes, as well as the magnitude and the initial position of the payload. When a dual-brake scheme of the lifting mechanism is adopted, the maximum load of the high-speed links and the maximum thermal power of the mechanical brake appear in the emergency braking process when one of the two brakes fails to work. In addition, it is found to be a false belief that the lower the initial speed, the lower the maximum loads acting on components of cranes become during the braking process.

Powering electric tower cranes by solar energy for sustainable construction

The construction industry is responsible for many negative environmental impacts that include emissions, waste generation, and the use of land, water, and energy. Most previous construction research attention has focussed on the environmental impacts only for material selection and building operation. Nevertheless, the high electrical demand that comes from the use of construction equipment on-site, mainly tower cranes, is considered a critical component of construction sites that is responsible for a significant volume of CO2 emissions and energy consumption. This research aims to study the feasibility of using photovoltaic (PV) systems to power the electric tower cranes used on construction sites, using as a case study The Mall of the Emirates’ expansion project in Dubai. Two concepts of PV systems were designed to power the seven cranes used on site; one connected (on-grid) and the other as a hybrid PV/Diesel system (off-grid). The results indicated that for both cases the solar systems supplied electricity with competitive costs, and reduced the greenhouse gases by substantial amounts. The results are then generalized for different climatic regions; especially for less solar blessed regions. Finally, managerial and policy implications of the study are discussed.

Study of the crawler crane stability affected by the length of compensating ropes and platform rotation angle in the mode of movement with payload

Payload uncontrolled oscillations arising during movement of a loaded self-propelled crawler crane at a construction site were reduced by equipping the crane with two additional compensating ropes equal in length and connecting the rotating platform to the load gripping device. This also increased the stability of the entire system. The stability margin moment was used to evaluate the crane stability at individual tipping axes of the crawler support contour. While moving along a random microrelief surface, under the varied length of the compensating ropes and the platform rotation angle, the length reduction increased the mathematical expectation of the stability margin moment for the most loaded lateral tipping axis. The smallest values of the stability margin moment were obtained at the platform rotation angle close to 90 degrees, with the crane stability index being most affected by the compensating rope length. At a zero platform rotation angle, the compensating rope length effect on the stability at the most loaded lateral axis was insignificant. The regression equation of the average stability margin moment affected by the compensating rope length and the platform rotation angle was obtained. The results can be used in the design of advanced self-propelled cable electric crawler cranes.

Синтез закону оптимального керування одним класом об’єктів з параметрами, змінними у часі та просторі

The law of optimal control of one class of objects with parameters, variable in time and space, to which the crane electric drive system belongs, fragments in this electric drive system and change of characteristics of process of movement of cargoes in time caused by changes of the resulted moment of inertia of the electric drive system. the moment of loading during the movement of the load, and the influence of longitudinal oscillations that occur in the cable on which the load is suspended. As an optimization criterion, the functional in the form of an integral of the square of the deviations of the real angular velocity of the drive motor of the crane from its ideal trajectory is used. In synthesizing the law of optimal control, we used the mathematical model of load-moving processes of a crane created by us and published in our previous works, listed in the literature, the structure of which is constructed using as a normal differential equation with time-varying parameters. electric motor with the load moment and the reduced moment of inertia of the electric drive system and the differential equation in partial derivatives, which describes the process of longitudinal oscillations in the cable due to the mass of the load and the mass of the cable between the drum and the point of suspension. It is shown that the implementation of the synthesized law of optimal control of the electric crane drive achieves such characteristics of the cargo movement process that prevent the destruction of both cargoes and areas where these cargoes are installed, because the cargo movement process is carried out without their shock contacts due to longitudinal to which the load is suspended. An algorithm for the practical implementation of the synthesized law of optimal control of the crane electric drive system as a dynamic object with parameters variable in time and space is proposed.

Analysis of the effectiveness of using the block for limiting the vibrations of the load on the mechanism of movement of the bogie with various control systems

Damping load vibrations in an electric crane drive is an urgent topic for research. The swinging load has a negative effect on the mechanical part of the device, leading to its wear, and on the entire control system as a whole. To combat the swaying of the load, it is proposed to install a vibration damping block created on the basis of an equation describing the dependence of the change in the deviation of the load on the equilibrium position in the plane of movement of the cart. The control signals in the vibration damping unit are the parameters of truck acceleration, suspension length, and weight of the load. At the output of the vibration damping unit, a speed task is formed. A block diagram of the trolley drive control system has been developed. Both scalar systems and systems with direct torque control are used on trolley travel mechanisms. The paper analyzes the efficiency of using the vibration damping unit when using different control systems on the movement mechanism of the bridge crane trolley.

A Comparative Study of Energy Storage Systems and Active Front Ends for Networks of Two Electrified RTG Cranes

The global consumerism trend and the increase in worldwide population is increasing the need to improve the efficiency of marine container transportation. The high operating costs, pollution and noise of the diesel yard equipment is leading sea ports to move towards replacing diesel RTG cranes with electric Rubber Tyre Gantry (RTG) cranes which offer reduced environmental impact and higher energy efficiency. However, ports will require smarter solutions to meet the increased demand on the electrical distribution network due to the electrification of RTGs. This paper aims to highlight the peak demand problem in the two electrical cranes network and attempts to increase the energy saving at ports by using two different technologies: Energy Storage System (ESS) and Active Front End (AFE). This article introduces one of the first extensive investigations into different networks of RTG crane models and compares the benefits of using either AFE or ESS. The proposed RTG crane models and network parameters are validated using data collected at the Port of Felixstowe, UK. The results of the proposed RTG cranes network show a significant peak demand reduction and energy cost saving.

RANCANG BANGUN ELECTRIC CONTAINER CRANE SEBAGAI SARANA BONGKAR MUAT DI TERMINAL PETIKEMAS BERBASIS PLC OMRON CP1E

Port is one of the supporting infrastructure of sea transportation which is the gateway to and out of goods and passengers. The function and role of the port is very important one of them is the container terminal. The container terminal is where loading and unloading of goods in containers. At the container terminal the length of loading and unloading process is determined by the quality and quantity of the tool. One of them is container crane. Therefore designed a container crane model in the form of a prototype named electric container crane. At the time of design is used Programmable Logic Controller (PLC) Omron brand CP1E-E20SDRA type as a safety controller and add a double trolley system so that container cranes can be flexible in 4 slots without gantry movement, and also add automatic cable track system so container crane can be Moving without the need for a portable generator because it is supplied directly using electricity from PLN

ПОСТРОЕНИЕ АЛГОРИТМА ОЦЕНКИ ПОКАЗАТЕЛЕЙ НАДЕЖНОСТИ ПРОМЫШЛЕННОГО ЗДАНИЯ

In terms of developing automated system of calculating and forecasting the residual life of industrial buildings the article compares the advantages and disadvantages of reliability models of industrial buildings. The scheme of examining mode of deformation of an industrial building has been created. Realization of successive actions helps to determine the terms of achievement of the limiting conditions of an industrial building, to estimate the reserve strength of its carcass, and to search for changes in the amplitude values of the displacements in the calculated points, according to the results of comparative analysis of corresponding values in different periods of industrial building operation at a constant value of the generalized load. There has been carried out comparative analysis of computer-aided design systems that revealed the need to develop the proper software product specialized in calculating the work of industrial structures equipped with electric bridge cranes, with a whole complex of disturbing effects. According to the results of calculation scheme there was developed a summary algorithm which implemented the possibility of solving direct, inverse and predictive problems, as well as realizing probabilistic approach as most appropriate for random nature of man-made and natural impact, and for the conditions of their perception. Summary algorithm generates the values of crane loads in the form of continuous random values in accordance with the distribution law for the given parameters of expectation and mean-square deviation. It enables to carry out comparative analysis of the obtained probabilistic values and results of the calculation of the normative values of loads under constant conditions of the system operation. This algorithm is the basis of the development of the settlement and software complex "ASR-2018".

Вероятность возникновения отказов механизма передвижения мостового крюкового электрического крана при эксплуатации

Вероятность возникновения отказов механизма передвижения мостового крюкового электрического крана при эксплуатации

Day-ahead industrial load forecasting for electric RTG cranes

Given the increase in international trading and the significant energy and environmental challenges in ports around the world, there is a need for a greater understanding of the energy demand behaviour at ports. The move towards electrified rubber-tyred gantry (RTG) cranes is expected to reduce gas emissions and increase energy savings compared to diesel RTG cranes but it will increase electrical energy demand. Electrical load forecasting is a key tool for understanding the energy demand which is usually applied to data with strong regularities and seasonal patterns. However, the highly volatile and stochastic behaviour of the RTG crane demand creates a substantial prediction challenge. This paper is one of the first extensive investigations into short term load forecasts for electrified RTG crane demand. Options for model inputs are investigated depending on extensive data and correlation analysis. The effect of estimation accuracy of exogenous variables on the forecast accuracy is investigated as well. The models are tested on two different RTG crane data sets that were collected from the Port of Felixstowe in the UK. The results reveal the effectiveness of the forecast models when the estimation of the number of crane moves and container gross weight are accurate.

Important Technical Elements to Enhance Electrochemical Capacitor Performance

Electrochemical capacitors (ECs) are essential energy storage devices, and their revision is regarded as important goals of scientific and industrial development. Generally, ECs storage much higher energy density than conventional dielectric capacitors, and provide higher power density than lithium-ion batteries. Moreover, ECs have long cycle life (>106 cycles) that makes them maintenance-free energy storage devices. Therefore, ECs have been widely studied for various applications of electric equipment, e.g., automobiles, tramways, buses, cranes, forklifts, and wind turbines. We have to, however, improve their performances more for various advanced applications. We found that specific power density of EDLC can be improved by applying various natural polymers gel electrolytes, e.g., alginate acid (Alg) and chitosan, as a matrix of gel electrolytes [1-4]. Moreover, we attempted to apply various natural polymers to EDLC as a binder for activated carbon electrodes, and improved their performances [5]. The cell with Alg binder shows high discharge capacitance and excellent rate capability when compared to the other cells with CMC and PVdF binders. This result suggests that the electrode with Alg has a lower internal resistance due to higher affinity between activated carbon and the natural polymer, which reduces a reaction resistance at the electrode/electrolyte interface. This property is consistent well with our previous affinity test [1]. Recently, we also applied gelatin material to binder in EDLCs. Our gelatin derivatives can keep electrode materials such as activated carbon and conductive materials steady as a important function of electrode binder. Resulting electrode films with gelatin are very strong enough to protect themselves against a manual scratching. An internal electric resistance in the gelatin-applied electrode sheets is somewhat higher than that in CMC-SBR-based electrode sheets. However, not only their mechanical strength but also their resistivity against oxidation, which we found in cell-cycling and cell-floating tests, are quite attractive. The applied electrode can be prepared in aqueous media including gelatin, conductive auxiliaries, and activated carbons. Thus the gelatin-based preparing process can provide us with environmentally friendly, safe and low-cost production for EDLC electrode sheets. Moreover, to decrease an electronic resistance between a current collector and active materials, we applied diamond-like carbon (DLC) coating to the aluminum current-collector surface. Generally, DLC is a insulator although it can reduce a mechanical friction. Thus we doped some heteroatoms into DLC to enhance the electric conductivity. The resulting DLC layer contributes to increase power of EDLC by reducing the interfacial resistance between aluminum foil and activated carbon. This was proved by ac impedance measurements. Moreover, the DLC was found to enhance the durability and cycle ability of EDLCs under some severe conditions: typically, high-voltage operation or long-term high-voltage floating. So we successfully applied DLC to the current collector surface; this is beneficial to enhance EDLC’s power, energy and durability. We also applied a three-dimensional (3D) current collectors to both the positive and negative electrodes in lithium-ion capacitors (LICs). By utilizing such thick electrodes, we increased mass loading of activated carbon and graphite at both the electrodes, which can enhance the energy of LIC without decreasing the power capability.

Optimal allocation of resources for yard crane network management to minimize carbon dioxide emissions

Electric rubber tire container gantry cranes (ERTGs) have already been widely used to replace rubber tire container gantry cranes (RTGs) in many ports of the world, especially in China. ERTGs can reduce carbon dioxide emissions by shifting energy demand from diesel to electricity (energy replacement). It takes almost 6–12 months to change a RTG to an ERTG, and the changed yard cranes cannot work during the replacement phase due to the mechanical reformation and electrical power system construction etc. Therefore, the yard crane network will generate bottlenecks in the container flow and influence the service level when energy replacement happens. This paper focuses on the problem of allocating limited resources for yard cranes to reduce the carbon emissions. The main challenges are how to solve the energy replacement problem at a network level and how to cope with the high uncertainties in the container terminal transportation network. Therefore, we model the energy replacement problem with the purpose of minimizing the carbon emissions by combining an allocation resource mathematical model and a simulation model of the whole transportation network together. The first stage of the energy replacement problem is to make energy replacement decisions each year, while the second stage is to evaluate the value of a seaport's service level based on the realized decisions by running the simulation model. However, the service level indicator is a random variable dependent on the decisions in the mathematical model, which should be controlled to make the seaport work normally at a network level. As an example, the optimization and simulation procedures are applied to a major container terminal in China. The proposed model is general and can be applied to the energy replacement problem of any other seaport.