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Horizontal Directional Drilling (HDD) is a trenchless method for installing pipes and cables underground. The process involves boring a tunnel beneath the surface where trenching is not practical.

Boring underground requires drilling fluid that combines water and bentonite clay to help remove cuttings, stabilize the bore, cool the cutting tools, and lubricate pipe string. As the process comes to life, the drilling pump rotates the drill bit which then removes the material. As the drill bit is rotating, the pressure and fluid produced by the drill pump helps stabilize the tunnel. The mud extracted from this process is then filtered and reused for drilling fluid.

HDD is a process usually deployed when installing pipes and cables underneath roads, rivers and other types of infrastructure. Therefore, most jobs come with a challenging set of parameters that demand high rates of accuracy, efficiency, and effectiveness. Equipment manufacturers and end-users can trust our +160 years of experience manufacturing pumps for both petroleum and industrial industries.

Our HDD industry pumps offer higher flow rates at slower speeds, ranging from 200 to more than 1000 gpm at pressures exceeding 2000 PSI. Through this more efficient operation, we can help extend the life of our pumps and consumable parts, even in the most demanding HDD projects.

Our lineup of dedicated high pressure HDD pumps come in a lightweight design that eases the burden of transportation and setup while also maximizing their power potential. With max rod loads ratings up to 53,000 and horsepower up to 800 BHP, our HDD high flow pumps can handle tough jobs with ease.

Partnering with GD Energy Products for your HDD equipment also means having an expert team to support you throughout the lifecycle of your pump. We have field service technicians who can come to you with solutions, as well as 24-hour customer service and our Parts on Demand program that ensures you never run out of pump parts when you need them.

It’s all-in service of ensuring that every HDD pump you get from GD Energy Products meets our performance standards and exceeds yours. With easy access to aftermarket parts and consumables, HDD companies can trust they have a truly reliable pump at a lower total cost of ownership (TCO).

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LEC mud pumps use hydraulic power to convert hydraulic energy into the power that can convey high pressure mud. It’s self-suction plunger pump. The parts without rotation make piston linear motion.

•High reliability: no rotating parts, less moving parts, longer free maintenance time, high abrasive resistance and self-lubricating ability, which decrease the operating cost. When the hydraulic power less than max. rated power, the pump will decrease the output power automatically thus make the pump safe.

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The 2,200-hp mud pump for offshore applications is a single-acting reciprocating triplex mud pump designed for high fluid flow rates, even at low operating speeds, and with a long stroke design. These features reduce the number of load reversals in critical components and increase the life of fluid end parts.

The pump’s critical components are strategically placed to make maintenance and inspection far easier and safer. The two-piece, quick-release piston rod lets you remove the piston without disturbing the liner, minimizing downtime when you’re replacing fluid parts.

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Black gold is truly the best description to sum up the value of oil. One of the most important contributors to change and industrialization, it drives the wheels of progress. ShalePumps is headquartered in Houston, the global oil capital. Headed by experts, it has a vision to support the industry with superior completion equipment. Frac operators, drilling contractors and well service companies source rely on ShalePumps for superior quality.

The key personnel of ShalePumps have a combined experience of more than a hundred years. This experience is reflected in the quality of our equipment. The fracking pumps, components and all services are much sought after for reliability and long life. This is because of the processes we follow. The design, materials, precision engineering and expertise contribute to an advanced assembly line.

After many years of thought and conscientious engineering, the team at ShalePumps is proud to add the Q5K™ 5000 HP Frac Pump to their list of many product offerings. Perfectly capable and suited for the next generation of hydraulic fracking market demands and technology. The Q5K is the only frac pump that has been designed and developed from the ground up to be capable of accepting true 5000 HP in a continuous duty frac application.

ShalePumps has consistently delivered high quality completion equipment to all stakeholders. The mission is to develop faster, rugged and efficient equipment to help the Oil and Exploration Industry. The vision is to continue leading the race with the best quality in completion equipment.

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Mud pump manufacturers frequently offer both types of pumps. In reality, the pump power end and fluid ends are identical. The difference lies with the method used by the pump to displace the mud.

In the early 1990s, it was generally accepted that the pumps used on mid-size and small boring machines should deliver fluid to the bore at a high pressure (1,800 to 2,200 psi/124 to 152 bar)) and have a low flow rate of 5 to 25 gpm (19 to 95 Lpm).

As the industry matured and operators became more experienced, it was found that a higher mud flow with lower pressures was the superior way to bore. In some formations high pressure, low flow is still preferred and provides the most success. However, in the majority of areas, higher flows are best to provide hole cleaning (removal of solids) and provide adequate bentonite for formation sealing and lubrication.

Plunger and packing technology is used when high (800 to 1,000 psi/55 to 69 bar and higher) pressures and lower flows are required. The flow pressure pushes on the front of the packing, compressing it tightly around the smooth surface of the reciprocating plunger sealing off leakage. When the pressure is below 800 to 1,000 psi (55 to 69 bar), there is insufficient flow pressure to assist in this sealing and packing leakage occurs. Leakage carries with it sand and other abrasive solids that lodge between the packing rings and plungers, causing rapid wear to the plunger surface and/or packing and making a good seal impossible.

One advantage of plungers/packing is that the packing can be adjusted by the operator to minimize leakage until the bore is complete and the pump can be serviced.

Pumps with piston/liner technology work in the opposite manner. Pistons work well to prevent leakage when flow pressures are low (below 1,200 psi/83 bar). Pistons are generally larger in diameter than plungers, allowing the pump to run slower-this is good-for the same flow rates.

Pistons have two disadvantages. First, when they fail or start leaking, the operator can do nothing to prolong operation until repairs can be made. Thus, repairs usually have to be made shortly after significant leakage starts. Second, pistons like to run cool and be lubricated. Thus, a piston cooling/lubrication system must be employed to add to piston life.

This system consists of a small centrifugal pump, spray nozzles, piping and collection tank. It sprays a mixture of water and lubricant (non-foaming soap or a small amount of liquid polymer), onto the back of the pistons.

Many boring machines are equipped with plunger pumps. These units are being applied where piston technology should be used, mainly low pressure and higher flows. These pumps frequently have leakage problems. To help operators combat leakage on these boring machines, conversion kits are being developed by some pump manufacturers to allow pumps to be changed from plunger to piston technology. Consult your boring machine or pump manufacturer for availability.

Economically, a good time to consider changing from plunger to piston technology on your pump is when the plungers are no longer serviceable and must be replaced. Conversion kits can be installed in the field and are considered bolt off bolt on upgrades.

If your mud pump has leakage problems, consider that you may be asking your pump to operate in a condition or application for which it was not originally designed.

Jerry Watson, INROCK Equipment Systems, is a member of the Drillmaster Editorial Board. Reports are reviewed by a team of drilling professionals: Watson; Frank Canon, Baroid Industrial Drilling Products; and Mark Van Houwelingen, Vermeer Mfg. Co.

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Founded in 1987 by J.D. Young, Tulsa Rig Iron was the premier designer and manufacturer of horizontal directional drilling rigs, along with mud pumps and mud recycling systems. In 2004, sons Trevor and Troy took the company helm and made the decision to concentrate the company efforts on building the best mud pumps and recycling systems available. Since that time, Tulsa Rig Iron has continued to set the industry standards for mud pump and recycling systems and is the manufacturer of choice for contractors around the globe. Fourth quarter 2013 marks a significant company milestone, in that we will effectively double our manufacturing capacity with a huge facility expansion. This will allow us to get equipment to our customers in a more timely fashion. Our state of the art manufacturing facility is located on 40 acres in Kiefer Oklahoma, a suburb just outside of Tulsa.

Tulsa Rig Iron is dedicated to being the industry leading provider of products and solutions for energy contractors. We will always have the best interest of our customers, our employees, and the environment in mind while designing and delivering our products and services.

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As development brings new utilities and services to suburban and rural areas near growing cities, installing new buried lines and pipes pose many challenges. These additions are usually installed close to existing houses and businesses, requiring careful drilling and boring procedures. Directional drilling is a great way to make essential infrastructure and utility installations while disturbing local traffic patterns and residents as little as possible. Yet the success or failure of any particular directional drilling or boring project often hinges on the quality of the pump chosen for the process.

Directional drilling is a method of creating a shallow underground tunnel with a boring tip and a heavy-duty slurry pump. This combination can dig relatively large diameter channels without disturbing the surface of the ground, minimizing damage to the landscape and qualifying the procedure as a trenchless service. This technique is also referred to as directional boring and Horizontal Directional Drilling (HDD), depending on the size of the channel and the equipment used to bore it. This technique can penetrate a wide range of dense and soft soil conditions, including flooded grounds and wetlands.

Almost any installation of a curved and relatively shallow pipe or cable can be handled with directional drilling equipment. This means there’s high demand for the services across the country.

Since directional drilling doesn’t require digging a trench from the surface downward, there’s little disturbance to plants and trees. This makes it popular among both city planners and homeowners living around the installation areas where boring is necessary. A drilling fluid is used to keep heat from building up and to encourage the flow of debris smoothly down the pipe. This fluid consists of a steady supply of fresh water mixed with a specially made polymer or bentonite clay to increase the lubricating and cooling properties of the liquid. To keep the fluids moving at full pressure, the project needs heavy-duty slurry pumps to move the debris-filled liquid back to the reclaiming chamber to clear out bits of dirt and rock. The slurry removal and transport pump takes the brunt of wear and tear from the process since it must move liquids packed with sharp bits of stone and soil that are highly abrasive.

Most directional drilling pumps are based on modified slurry pump designs since these units need to work with drills producing up to 600 metric tons of thrust force. Large bore directional drilling heads can remove large chunks of solid stone and compacted soil that causes a lot of wear and tear to traditional slurry pumps. Debris bouncing against internal parts like impellers and spiral vanes results in constant repairs and a shortened lifespan of the pump. EDDY pumps are designed to last even in challenging directional drilling and boring applications.

It’s the specific design of the EDDY Pump that makes it ideal for directional boring and HDD uses. An open rotor design allows objects of up to 12 inches in diameter to pass through the pump without clogging it. This should cover even the largest and most aggressive cuttings generated by boring and drilling. There’s also no issue with generating plenty of pressure with any kind of drilling fluid with the open rotor design. Corrosive and abrasive mixtures don’t cause issues for the tough EDDY Pump design either. There’s relatively little maintenance needed to keep the high solids EDDY slurry pump working project after project. Sizing the right pump to the boring equipment will ensure it lasts for years with minimal wear and tear from the abrasive debris and cuttings.

Most contracts for public and private directional boring work include a clause stipulating the contractor is responsible for cleaning up after the work is completed. These cleanup steps usually include dewatering any remaining drilling fluid or transporting the cleaning water left over after the drilling bits are removed. Slurry pumps are also great for quickly removing these lingering fluids even when plenty of debris is mixed into the liquid.

Consider the EDDY Pump for your next directional boring project. Contact our team today to discuss your needs and let us pair you with the perfect pump for slurry removal and transport.

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Continental Emsco Drilling Products, Inc., which consisted of Emsco drilling machinery and Wilson mobile rigs, was purchased by National-Oilwell, Inc on July 7, 1999. To our knowledge, no pumps have been manufactured and sold under the Emsco brand name since National-Oilwell acquired them.

Fairbanks Morse pumps are currently manufactured in Kansas City, Kansas. Fairbanks Morse is a division of Pentair ever since August, 1997 when Pentair purchased the General Signal Pump Group.

Gaso pumps are manufactured by National Oilwell Varco. Gaso was acquired as "Wheatley Gaso" by National-Oilwell in the year 2000. At the time, Wheatley Gaso was owned by Halliburton.

Skytop Brewster pumps are no longer available as new pumps. Skytop Brewster(Cnsld Gold), a unit of Hansen PLC"s Consolidated Gold Fields subsidiary, was acquired while in bankruptcy by National-Oilwell, Inc. in November, 1999.

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Prime Drilling stands for optimum product quality and service. "What does not fit is made to fit" - this is the motto under which we are compyling with the specific requirements and demands of our customers. Equally important is the sustainable developement of our family-owned company since the safety and the personal satisfaction of our employees are essentials parts of our success and the long-term economic security of business. Being better than the competition is a everday challenge we gladly face.

Our company claim „for your success“ means the focus of our daily actions are on the satisfaction of our customers. It also means attentively listening to our customer, purposefully applying decade-long experience and never losing sight of our quality objective. These are the values and maxims rooted in our family and company tradition with its focus on the customer at all times.

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Interested in a trade in value or converting your equipment into cash? We buy or trade for all types of directional boring equipment including: directional drills, trailers, HDD Tooling and other HDD support equipment. We make it as easy as possible to get you the money you need for your equipment.

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Directional drilling is a broad term used to describe any boring that doesn’t go in a straight line vertically down. In fact, even in a vertical well, it might be necessary to deviate to avoid a geological formation or a previous stuck pipe, then return to the original path. In this instance, the driller uses sidetracking techniques.

In conventional drilling for oil and gas, the drill bit, drillstring, pipe and casing all go down in a straight line. If a driller aims away from the 180-degrees down, that’s technically directional drilling. Nowadays, however, it’s more likely that there’ll be a series of one or more carefully planned directional changes along the wellbore.

Directional drilling techniques have been employed for almost 100 years now. Over the past few decades, technological improvements have meant that angles, turns and underground distances covered are amazing feats of engineering.

Techniques such as multilateral, horizontal and extended reach drilling (ERD) are enhanced oil recovery (EOR) methods that can increase the yield of a downhole dramatically. It’s possible for ERD specialists to drill for more than 10 kilometers/6.2 miles. Students of petroleum engineering often get shown illustrations and diagrams that look like tree roots. If we imagine the rig as the trunk of the tree, the directional possibilities of the roots are endless. Even the branches of the roots are comparable to multilateral drilling.

Multiple down holes can be drilled from the same rig, minimising surface disturbance and environmental impact. Also, these boreholes can extend up to a mile down, and for more than five miles at shallower angles. In an oilfield with dispersed deposits, a large radius can be tapped, maximising the expensive asset which is the rig. Rigs and crews have day rates that run into the hundreds of thousands of dollars, one rig working up to five or ten square miles is very cost-effective in comparison to having a dozen or more vertical rigs, which may or may not be tapping into the same accessible reservoir deposits.

Geologists and engineers use terms such as an ‘oil reservoir’ or a ‘hydrocarbon reservoir’ to describe underground pockets of resources. Scientific terms give a label to help everyone understand each other, but Mother Nature has different ideas about the way she organises things.

People who perform well plans such as seismic geologists, geoscientists, exploration engineers and CAD experts join together to give the best idea of where oil and gas deposits may lie. Their estimates are based on different types of surveys, and past experience. What they’re unlikely to do is pinpoint the exact place where they’d access the maximum amount of resources.

When we see reservoirs of water, we can imagine dropping a giant straw into the middle and sucking up the entire lake. The flat surface area of the water and the likelihood of human-made dams and walls might give us a false idea of the topography of an underground reservoir. The bottom of the lake would provide a better insight into the random geometry of the dispersed resource. For example, if your imaginary straw happened to touch a shallow gravel bar in the middle of the lake, you might only extract a small percentage of the water.

On top of this randomness related to upper, lower and outer dimensions, there are plenty of other possibilities:By drilling at an angle, more of the reservoir gets explored, since they tend to form horizontally (between formations) not vertically.

The deposit might not resemble a reservoir at all, it might be oil-saturated sand or shale. Directional drilling is especially valuable in shale, where the formation can be explored to follow richer seams.

There’s some other reason why the reservoir is inaccessible from above, such as the surface land being a town, mountain, nature reserve or area of special scientific interest (SSI).

Rather than the oil and gas settling in a single deposit, it’s in separate distinct pockets, not clearly joined to each other. This can occur where there are multiple bed dips or altitudes.

It’s common to find deposits below salt domes or fault planes, where the driller faces increased technical risk. Horizontal drilling can avoid salt domes, and reduce pressure on equipment near fault lines.

In fact, these ‘irregular’ reservoirs are very common. Now that relatively fewer elephant reservoirs are being discovered, and technology improves, directional drilling becomes more critical each year.

Another use for directional drilling is in the event of an uncontrolled, or ‘wild well’. If you imagine a well that has broken through the blowout preventer and is gushing, how can you cap it?

This depends on the amount of underground pressure. In some instances, a second control well is drilled so that it intercepts the same point where the original wellbore meets the reservoir. Once the new directional well is completed, it can be pumped with kill fluid.

If the well pressure isn’t too severe a relief well can help to release gas so that the original gusher reduces in intensity, allowing it to be controlled. Mud and water are pumped in from a different angle, to get the first well under control and back to proper working order.

It’s not possible to see hundreds of metres underground, in fact, the drillers and engineers rely entirely on technology to ‘see’ where they are going. A directional driller has a guide that has been created by the engineers and geologists. Every 10-150 metres, (with 30-40 being typical), survey data is sent back to make sure that the original ‘blue line’ well path is being followed.

Directional drilling software receives input from multiple measurements while drilling (MWD) sensors in the drill bit, and at any branches or junctions. (Other measurement tools include Electromagnetic MWD and Global Positioning Sensors (GPS)). In addition to MWD technology, mud loggers use logging while drilling (LWD) sensors and software. The drill bit has vibration sensors that can detect the type of formation being drilled at any point. Collars can be added along the length of the well, sending back information to the surface regarding torque, weight and bending.

From the surface, electromagnetic sensors can also track the progress of the drill bit. When all of the data from the drill bit, collars, motors and the surface equipment enter the control panel, a complete representation occurs.

As well as being able to know what is going on, even a mile along the drill bore, drilling engineers can make adjustments in real-time that ensure that everything is going to plan. This is especially relevant when unexpected things occur concerning geology or severe equipment stress.

If you were to imagine the mechanics of directional drilling without seeing the technology, you might wonder how the drill could suddenly change direction. Since the motor that turns the drill is at the surface, how can the drill string continue to rotate at 360 degrees while going around a corner?

We now have downhole drilling motors, that can drive the drill bit in a completely different direction to the usual 180-degree downhole starting point. Turbodrills and rotary steering drills are employed in directional situations where they’re best suited.

The rotational speed of the drill and the weight and stiffness of the drillstring can also be used to influence direction. One of the original methods was jetting, a high-pressure nozzle shot water or drilling fluid from one edge to the drill bit, creating a weaker side in the formation.

Another traditional method was to use a whipstock. A whipstock is a type of wedge that can redirect the drill. At the desired depth the drill is withdrawn to the surface, a whipstock gets put in place, then the drill goes back down and gets redirected by the whipstock. Next, the drill is brought to the surface again, the whipstock pulled out and then drilling resumes and the bore changes path.

Drill bit sensors can tell the driller about external weight, and rotary speed that can also be used to influence the trajectory. Mud motors can also be used to change direction. With a steerable drill pipe, there’s a bend near the bit. The drillstring stops turning, and then there is plenty of time to use chosen directional techniques to reposition the bit to the desired trajectory. When it starts spinning again, it’ll start going in the direction that it’s now pointing towards. (More about steerable mud motors in the next section).

Specialised drillbits are used to improve performance and reduce the chance of failure. Schlumberger supply directional PDC drill bits for both push- and point-the-bit rotary steerable systems. Horizontal Technology, Inc. provides ‘Varel High Energy Series bits’ designed for the unique, rigorous conditions of horizontal directional drilling.

Mud Motors. Downhole steerable mud motors get positioned near the drill bit, which has a bend in it. What happens is that at the correct depth the drillstring stops rotating, then drilling fluid is pumped through the mud motor so that the drill bit starts to turn just due to the force of the liquid. This mud pressure pushes the drill bit into a different angle, and also begins to bite into the formation at a different angle to the central well trajectory. Once the sensors verify that the drill bit is pointing in the right direction, the drillstring starts to turn again.

Rotary Steerable Systems (RSS). Directional drilling by using the mud motor means that often the drill pipe needs to be slid forward while the drill is motionless. A rotary steerable system can drill and steer at the same time. This means that previously inaccessible formations can be accessed.

Custom whipstocks that work with downhole motors don’t need removing in between drilling. These are a significant advance on the old fashioned ones previously mentioned. More time can be spent drilling, and less time removing the drill bit and conventional whipstock.

Networked or wired pipe. The Intelliserve system from National Oilwell Varco is a broadband networked drilling string system. It can transmit data from the sensors back to the surface.

Well integrity is perhaps the most crucial aspect of directional drilling. Drilling at deeper, or extended distances, and especially changing direction causes a number of additional engineering challenges and stresses on the equipment.

For example, a downhole drilling motor will always be far smaller and less powerful than one connected to a robust drilling rig above ground. It’s more likely to fail, or have insufficient torque or speed to get through challenging geological formations.

The drillstring itself will be less stressed when going in a straight line, every degree of turn add extra friction and unbalanced pressure. If drillstring integrity isn’t maintained, the drillstring can snap or get jammed. It could mean that a brand new set of equipment is needed, and a new well might need to be drilled again in a slightly different direction.

Maintaining hydraulic pressure, and wellbore cleaning is much more challenging with these types of wells. Modern directional drilling equipment is so advanced, it can cope with high pressure/high-temperature HP/HT conditions, a mile away, after the wellbore has changed direction.

Computer simulation programmes are used to simulate the well plan. 2D and more recently 3D modelling programmes give the geoscientists and engineers a visualisation of the planned path. This software is created based on previous knowledge, current seismic and magnetic data, supplemented with real-time data from the MWD instruments.

There are a few different types of directional drilling. Multilateral drilling is where a downhole bore has multiple lateral (90 degrees) offshoots. For example, a well might be 1000 metres in depth but have numerous lateral wells connected to it.  Extended reach drilling (ERD) is categorised by ever longer wellbores drilled from the rig.

Land tenders offer the right to explore and extract resources from a particular square meterage of land. It’s possible to purchase a lease for an oil patch, then drill horizontally into neighbouring territory. Close to a national border, it’s been known for drillers to drill into another country.

This is different from straightforward situations, where two territories happen to tap into the same reservoir. The industry has guidelines and regulations. Simultaneous operations (SIMOPS) and combined operations (COMOPS) have strict procedures for situations where well interference can occur.

Of course, the majority of horizontal drilling is done for good reason, not to cross borders of ownership or sovereignty. Sometimes horizontal directional drilling is the only possible way to tap a reservoir, such as the case of dilling under a town or nature reserve. Other times it’s a cost-saving exercise, to drill under a salt dome or mountain. Lastly, drilling horizontally can be the best way of maximising extraction by reaching more sections of a reservoir.

Serial Energy Entrepreneur. Webmaster at drillers.com. Founder of Out of the Box Innovations Ltd. Co-Founder of Natural Resource Professionals Ltd. Traveller and Outdoorsman, Husband, Father. Technology/Internet Geek.

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SHANDONG BEYOND PETROLEUM MACHINERY CO.,LTD. is established on request of customer and aimed to supply best product and service for the customer. It focuses on to supply best solutions for the overseas oilfield customer on equipment & spares maintenance and supply. China has become main supplier for oil production countries, but Chinese equipment has some special features different with European and American countries, and there exits big language and cultural difference between China and other countries, so it has become one big challenge for the overseas customer to get the exact equipment and parts they need in a short time. However, BEYOND takes root in China, and has very good cooperation relationship with most of famous factories, plus strong technical support and good advantage in language. Therefore, BEYOND is quite capable to help the customer to solve this challenge.

tools, OCTG and other related equipment and parts. Meanwhile, BEYOND can offer technical services, personnel training and maintenance guide towards China-made drilling rigs. Only if it is what you need, BEYOND can get it for you: from best factories, with most competitive price and within shortest lead time.

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We understand that the most important factor in your drill rig"s effectiveness is the performance of its operator. To help make their workday as productive as possible, we"ve incorporated safety and comfort features into the new operator"s cab. The new cab ensures operator comfort with features like climate control, all around visibility, air suspension seat and easy to use controls.