1 Tractor Trolley Volume

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High volume spraying techniques are regularly used in horticulture for the application of crop protection products. Plant protection is very important to prevent the crop from being damaged by the entrance of pests and diseases. High volume spraying equipment are used by using a spray boom or spraying gun. Growers use worldwide high-volume spraying technique in both flower and vegetable cultivation. By using a high volume spraying technique, a spraying trolley, backpack sprayer, spraying robot, spray booms and spray guns are used. In constrast to a high volume spraying technique, you can also use a low volume spraying technique such as area treatment. For which spraying technique you choose, depends on several factors. Our specialist wrote a spraying equipment guide with all information you need to know to apply crop protection agents, such as insectices, pesticides and herbicides.

A spraying trolley or cart is mostly used by performing high volume crop spraying. With the aid of a spraying trolley you can distribute the spraying fluid over the crop. Fill the thank with the desired amount of spray liquid. With the hose you can distribute the spray fluid in the right area. Use a spray boom or spray gun with nozzles to distribute the liquid evenly.

It is important to regularly clean your spraying equipment to promote the functioning of your cart. Moreover, you prevent residues of the spray liquid from remaining in the spray tank. In addition to cleaning, you also need to carry out regular maintenance on your spraying trolley. More and more often, we see that insurance companies and other institutions set requirements for the maintenance of spraying equipment, among other things. Please consult your insurance to prevent your equipment cannot be used anymore because of regulations.

Spraying equipment mostly consist of a tank, pump, agitator, flow control and nozzles. These parts needs replacement in time to preve standstill. At Hortispares you can find a wide range spare parts for your Empas spraying equipment.

Hortispares offers 10 000 spare parts for horticulture. Are you looking for spare parts for your high volume spray equipment. You can visit hortispares.com for parts of high-volume spraying equipment, including spray booms, spray guns and a back sprayer. At Hortispares you can easily and quickly order spare parts for high volume spray equipment. In this way you prevent downtime or malfunctions of your spray equipment and guarantee safety at the highest level. With worldwide shipping and secure payment methods, growers and technical installers all over the world are able to safely buy the right spare parts in one online store.

If a painter or a mason is billing for their masonry or brickwork. If we estimate the number of bricks in a brick wall for one brass, we also need to account for the thickness of the mortar. The question of how many bricks are needed for every brass in brickwork now emerges.

If you compute the number of bricks in 1 brass of brickwork, then 1416 is the number of bricks that are needed in 1 brass instead of 1840 needed when it is loaded in a dumper or tractor trolley. Because mortar thickness is added to brick size in brickwork, fewer bricks are needed per brass.

To ensure a good harvest, necessary control strategies, particularly chemical measures, are implemented mainly in two stages: before cropping and during the crop-growing season. For example, in the crop-growing season, spinetoram and cyantraniliprole are applied to control striped flea beetle, diamondback moth, and tobacco cutworm (Spodoptera litura) (Hong et al., 2017; Li et al., 2015), and pendimethalin and quizalofop-p-ethyl are applied to control some annual weeds (Chen et al., 2015). In addition, vegetable growers usually take some measures for PPPM (Mao et al., 2016). In Guangdong Province, farmers typically apply burn-down herbicides (e.g., paraquat and glyphosate) to manage vigorously growing weeds and stubbles and then perform shallow tillage with a rotary cultivator (Chen et al., 2015). However, some problems are inevitable with this PPPM method. First, some important insect pests, such as striped flea beetle and diamondback moth, will not be controlled, which introduces a significant pest source to the next crop. The pests require numerous applications of various insecticides per season to produce acceptable vegetables. Second, both insect pests and weeds are prone to developing resistance to chemical pesticides with repeated applications. In China, the diamondback moth has evolved resistance to many classes of insecticides, including avermectins, chlorantraniliprole, spinosad, and indoxacarb (Wang and Wu, 2012; Wang et al., 2013; Xia et al., 2014). In addition, there have been several reports concerning paraquat and glyphosate resistance in goosegrass and horseweed (Conyza canadensis) in China (An et al., 2014; Chen et al., 2017; Song et al., 2011; Zhang et al., 2015). In this context, farmers have to increase the rates of these pesticides or switch to newly developed pesticides, which increases the control cost substantially. Third, the public demands alternatives due to increasing concerns about food security and a heightened awareness of environmental impacts. Thus, new alternative pest management techniques are needed for PPPM in leafy vegetable fields.

Although flaming has a wide range of uses, most reports focus on its application for the control of weeds, insects, or pathogens separately (Kanellou et al., 2017; Sivesind et al., 2012). In fact, flaming can play an important role in PPPM in leaf vegetable fields. The advantages include that 1) flaming takes effect quickly, which may save several days for preparing for the next growing season; 2) flaming kills weedy plants and insect pests simultaneously (Lagu et al., 1997), and thus reduces herbicide and insecticide use; and 3) flaming can be used to control tolerant or resistant pests (Datta and Knezevic, 2013). Research groups worldwide have developed different types of flaming equipment (Brainard et al., 2013; Raffaelli et al., 2013). However, the flaming machines and the burners reported in the literature are often not suitable or efficient for PPPM in leaf vegetable fields. Moreover, there are no reports on the effect of flaming on weed and insect controls in China. Therefore, the objectives of this study were to 1) describe two flaming machines designed for PPPM in leafy vegetable fields and 2) evaluate the performance of flame treatment on weeds and insect pests in field trials.

The TMFM needs to be connected to a common tractor by the three-point hitch when in use. It is equipped with four LPG tanks (15 or 25 kg) and 13 burners, providing a working width of 2.6 m (Fig. 1). The burners are installed at an angle of 45 to the ground, and the height of the burners can be easily adjusted from 20 to 50 cm off the ground.

The machine is equipped with a heat exchange system that allows good heat exchange, thus recovering energy. Four LPG tanks are placed inside a hopper that contains water. The water is heated by means of the exhaust, which passes through an iron tube placed on the machine frame and above the burners. All the LPG tanks are equipped with a pressure regulator to deliver stable outlet pressure for the burners. The pressure regulator is connected to a control system consisting of two manual valves that allow the LPG feed to be adjusted.

The numbers of striped flea beetle adults and diamondback moth larvae were counted 30 min after flame treatment. In each plot, five points were selected in a diagonal sampling pattern and three plants were sampled per point by visual inspection (including the reverse and obverse side of the leaves) in the field.

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