Following OSHA Standards During Mobile Home AC Installations

Following OSHA Standards During Mobile Home AC Installations

Importance of Safety in Mobile Home HVAC Work

Mobile homes, often referred to as manufactured homes, present unique challenges and opportunities when it comes to installing HVAC systems. The installation of these systems must be thoughtfully executed to ensure efficiency, safety, and compliance with occupational standards. A key aspect of this process involves adhering to the Occupational Safety and Health Administration (OSHA) standards, which are designed to protect both the installer and the homeowner.


An overview of mobile home HVAC systems reveals several unique characteristics that differentiate them from traditional residential HVAC installations. Mobile homes typically have a lower ceiling height and less attic space, necessitating compact and efficient heating and cooling solutions. Filters should be checked monthly to maintain air quality and system efficiency hvac mobile home compressor. Common options include packaged units, split-system air conditioners, furnaces, and heat pumps specifically designed for smaller spaces. These systems are tailored to optimize energy use while maintaining comfortable indoor climates despite the limited space available.


One of the primary challenges in installing HVAC systems in mobile homes is ensuring proper ventilation. Mobile homes can be more susceptible to moisture accumulation due to their tight construction. This makes it crucial for HVAC installers to implement effective ventilation strategies that prevent mold growth and maintain air quality. Additionally, because mobile homes can be relocated, installers must consider factors such as system stability during transport.


Following OSHA standards is essential during the installation process not only for regulatory compliance but also for safeguarding health and safety. Installers must be aware of potential hazards such as electrical risks, falls from ladders or roofs, confined spaces like crawlspaces or attics with limited access points, and exposure to hazardous materials like refrigerants or asbestos-containing components in older units.


To mitigate these risks, OSHA guidelines recommend thorough risk assessments prior to beginning work on any project site. Personal protective equipment (PPE) should be worn at all times according to task-specific requirements; this might include gloves when handling sharp objects or tools prone to slippage under wet conditions encountered during ductwork assembly outdoors where rainfall may occur unexpectedly without warning signs beforehand!


Training also plays a pivotal role in ensuring installer safety on-site by equipping workers with knowledge about best practices related directly back into their daily tasks performed regularly over time periods spanning weeks/months depending upon project size/scope involved therein too! Comprehensive training programs cover topics such as fall protection techniques using harnesses/lanyards anchored securely onto stable surfaces supporting weight loads safely without risk collapse under pressure exerted forcefully against them unintentionally so long precautions taken ahead accordingly whenever possible before starting operations anew each day thereafter until completion achieved fully satisfied client/customer expectations met entirely beyond measure!


In conclusion: Installing an efficient yet safe HVAC system inside any given mobile home requires careful planning combined effectively alongside adherence strictly enforced OSHA regulations governing overall industry standards nationwide today everywhere alike universally worldwide no exceptions whatsoever granted ever unless otherwise permitted explicitly written consent authorized official sources recognized legally binding authority overseeing jurisdiction concerned ultimately decided case-by-case basis determined appropriate course action follows suit thereafter promptly without delay hesitation second thought reconsideration needed again future reference purposes further notice required later date time frame specified mutually agreed parties involved contractually obligated fulfill terms therein stipulated clearly understood accepted willingly voluntarily signed initialed notarized witnessed independently verified authenticated genuine article document submitted archiving records kept indefinitely stored securely accessed retrieval deemed necessary urgency arises unexpectedly suddenly unanticipated developments occur impacting operational continuity adversely negatively affecting outcome desired originally intended envisioned accomplished successfully final result achieved satisfactory manner concluded positively favorably beneficially advantageously overall end users enjoy benefits derived installed properly functioning optimally peak performance levels maintained consistently reliably durability longevity enhanced significantly improved dramatically noticeable difference felt immediately appreciable tangible ways experienced firsthand practically instantly realized moment implementation completed finalized stage reached milestone milestone

When it comes to installing air conditioning systems in mobile homes, adhering to OSHA regulations is not just a matter of compliance but also crucial for ensuring the safety and well-being of workers. The Occupational Safety and Health Administration (OSHA) has set forth specific guidelines that help in creating a safe work environment, and when these are followed, they significantly mitigate the risks associated with HVAC installations.


One of the primary concerns in HVAC work within mobile homes is electrical safety. Mobile homes often present unique challenges due to their compact size and varying structural materials. OSHA's standards for electrical safety, detailed in 29 CFR 1910 Subpart S, stress the importance of de-energizing equipment before any installation or maintenance task begins. This regulation ensures that workers are protected from electric shock hazards during AC installations. Additionally, proper grounding and bonding techniques must be employed to prevent electrical faults that could harm both the installer and future occupants.


Another critical aspect is fall protection, as outlined in OSHA's 29 CFR 1926 Subpart M. While one might assume that working on a mobile home does not involve significant heights, installers often need to access roofs or elevated areas to place external units or run ductwork. OSHA requires employers to provide appropriate fall protection measures such as harnesses or guardrails when working at heights greater than six feet. Ensuring stable ladders and scaffolding can further safeguard workers against falls.


Handling refrigerants introduces chemical hazards which are addressed under OSHA's Hazard Communication Standard (HCS), found in 29 CFR 1910.1200. This regulation mandates proper labeling and documentation of hazardous chemicals like refrigerants used in AC systems. Installers should be trained on safe handling practices and equipped with personal protective equipment (PPE) such as gloves and goggles to prevent exposure-related injuries.


Furthermore, ergonomic considerations play an essential role since HVAC work involves lifting heavy components like compressors or navigating tight spaces within mobile homes. OSHA suggests implementing mechanical aids or team lifting strategies to reduce musculoskeletal injuries, which are common among HVAC technicians.


The importance of regular training cannot be overstated when discussing compliance with OSHA standards. Employers should conduct frequent safety training sessions tailored specifically for mobile home environments. These sessions should cover emergency procedures, safe tool usage, and how to recognize potential hazards unique to this setting.


In conclusion, following OSHA regulations during mobile home AC installations is integral for protecting both workers and residents from possible dangers associated with improper installation practices. By prioritizing electrical safety, fall prevention, chemical hazard management, ergonomic practices, and comprehensive training programs, companies can ensure not only regulatory compliance but also foster a culture of safety within their workforce. Ultimately, adherence to these standards leads to efficient operations while safeguarding human health-a goal every responsible employer should strive towards.

Steps to Retrofit Legacy HVAC Units While Maintaining Safety Compliance

 Steps to Retrofit Legacy HVAC Units While Maintaining Safety Compliance

Retrofitting legacy HVAC units presents unique challenges and opportunities for modernizing building infrastructure while adhering to safety compliance.. As buildings age, their heating, ventilation, and air conditioning systems often become inefficient and outdated.

Posted by on 2024-12-30

Navigating Safety Standards for Mobile Home Heating and Cooling Systems

 Navigating Safety Standards for Mobile Home Heating and Cooling Systems

As we venture into the future of mobile home living, one aspect that deserves heightened attention is the safety of heating and cooling systems.. These components are essential for ensuring comfort in varying climates but pose significant safety risks if not properly managed.

Posted by on 2024-12-30

Innovative Solutions for Upgrading Outdated Mobile Home HVAC Systems

 Innovative Solutions for Upgrading Outdated Mobile Home HVAC Systems

Maintaining long-term efficiency and performance in mobile home HVAC systems, especially when dealing with outdated models, requires an innovative approach that combines both traditional maintenance practices and modern technological upgrades.. Mobile homes often present unique challenges due to space constraints and the original design of their heating, ventilation, and air conditioning systems.

Posted by on 2024-12-30

Essential Safety Gear and Equipment for Technicians

When it comes to the installation and handling of air conditioning (AC) units in mobile homes, safety is paramount. This process not only demands technical precision but also strict adherence to Occupational Safety and Health Administration (OSHA) standards to ensure the safety of both the technicians and residents. Mobile homes present unique challenges due to their structure and limited space, making it essential for workers to follow comprehensive safety precautions.


First and foremost, understanding the working environment is crucial. Unlike traditional homes, mobile homes have less structural support, which can affect how AC units are installed. Therefore, before beginning any installation work, a thorough assessment of the site should be conducted. Workers need to identify potential hazards such as weak walls or ceilings that might not support heavy equipment safely.


Personal protective equipment (PPE) is an indispensable component of OSHA's guidelines. For those handling AC installations, wearing proper PPE such as gloves, goggles, hard hats, and steel-toed boots can prevent injuries from sharp edges or unexpected falls. The use of PPE aligns with OSHA's emphasis on minimizing risks associated with physical labor.


Moreover, electrical safety cannot be overlooked during these installations. Mobile homes often have different electrical systems compared to permanent structures; hence ensuring that all electrical components are properly grounded is essential. Technicians must verify that power sources are switched off before commencing work on any wiring or connections to prevent electric shocks or sparks that could lead to fires.


Another critical aspect involves safe lifting techniques and the use of proper equipment when handling heavy AC units. Given that mobile home floors may not withstand excessive weight in concentrated areas, spreading out the load using platforms or dollies can mitigate potential damage or accidents resulting from floor collapse.


Communication among team members is another vital OSHA guideline during installations. Clear signals and instructions help avoid misunderstandings that could lead to mishaps during complex operations like maneuvering large units into tight spaces.


Additionally, regular training sessions on updated OSHA standards ensure that all workers remain informed about best practices in safety protocols specific to mobile home environments. Such training empowers workers with knowledge about hazard recognition and emergency response procedures-essential skills for maintaining a safe working environment.


Finally, post-installation inspections are necessary to confirm that all aspects of the installation meet both operational efficiency standards and safety regulations set by OSHA. This includes checking for secure mounting of units, verifying proper insulation around electrical wiring, and ensuring there are no leaks in refrigerant lines-all factors critical for preventing future accidents or environmental harm.


In conclusion, following OSHA standards during mobile home AC installations requires a meticulous approach centered around hazard identification, personal protection measures, effective communication strategies, continuous education on safety protocols, and rigorous post-installation checks. By prioritizing these steps within their operational processes, technicians can significantly reduce risk factors while enhancing overall efficacy in creating comfortable living environments for residents without compromising on safety.

Essential Safety Gear and Equipment for Technicians

Proper Procedures for Handling Refrigerants and Chemicals

The installation of air conditioning units in mobile homes presents unique challenges and requires meticulous attention to detail to ensure safety, efficiency, and compliance with established standards. One of the critical considerations during such installations is adhering to the Occupational Safety and Health Administration (OSHA) standards, which emphasize the proper use of tools and equipment. Ensuring compliance not only safeguards the well-being of workers but also enhances the longevity and functionality of the AC units.


The first step towards compliant AC installations involves understanding the specific OSHA guidelines that pertain to working in confined spaces like mobile homes. These guidelines are designed to prevent accidents and injuries by promoting safe practices. For instance, using ladders properly to avoid falls, ensuring electrical tools are double-insulated or properly grounded, and wearing personal protective equipment (PPE) like gloves and eye protection are all part of maintaining a safe work environment.


When it comes to tools, selecting the right equipment for the job is crucial. Installers must be familiar with both hand tools and power tools that are specifically suited for HVAC tasks. Properly calibrated torque wrenches are essential for connecting refrigerant lines without causing leaks or damage. Moreover, using insulated screwdrivers when dealing with electrical components reduces the risk of shock or short circuits.


Equally important is maintaining these tools in optimal condition. Regular inspection for wear and tear ensures that they function correctly when needed most. Dull blades on cutting tools can lead to slips or mistakes; therefore, keeping them sharp not only improves efficiency but also minimizes safety risks.


Beyond individual tool handling, teamwork plays a role in promoting OSHA compliance during installations. Clear communication among team members about who will perform each task reduces confusion and prevents mishaps related to tool sharing or workspace crowding. Additionally, ensuring everyone on site understands emergency protocols is vital should any incident arise.


Ventilation is another key aspect often overlooked during mobile home AC installations but emphasized by OSHA standards. Given that many mobile homes have limited natural airflow during construction phases, installers need portable ventilation solutions to dispel potentially hazardous fumes from welding or soldering operations.


In conclusion, following OSHA standards through proper use of tools and equipment forms an integral part of compliant AC installations in mobile homes. By prioritizing safety protocols-such as regular tool maintenance, effective communication among workers, appropriate PPE usage-and adhering strictly to regulatory requirements concerning confined spaces and ventilation needs-installers contribute significantly towards creating safer living environments while enhancing their professional credibility within this specialized field.

Electrical Safety Protocols for Mobile Home HVAC Work

The role of a technician working on mobile home HVAC systems is both demanding and critical, requiring a comprehensive understanding of installation, maintenance, and safety protocols. One of the most important aspects of this occupation is adhering to OSHA standards during mobile home AC installations. These standards are designed to ensure not only the safety of the technicians but also the efficiency and reliability of the HVAC systems they install.


OSHA, or the Occupational Safety and Health Administration, sets forth regulations that aim to create safe and healthy working conditions across various industries. For technicians involved in mobile home HVAC installations, these guidelines are particularly crucial given the unique challenges posed by such environments. Mobile homes often have different structural characteristics compared to traditional homes, necessitating specialized skills and a keen awareness of potential hazards.


Training for technicians begins with a thorough understanding of OSHA's general industry standards, which cover everything from personal protective equipment (PPE) to electrical safety. Technicians must be well-versed in recognizing potential risks such as electrical shock, falls from heights when working on rooftops or ladders, and exposure to harmful substances like refrigerants. Proper training programs equip technicians with knowledge about using PPE effectively-such as gloves, goggles, and respirators-to minimize exposure to these hazards.


Certification plays an equally vital role in ensuring that technicians can safely handle complex HVAC tasks within mobile homes. Certifications such as EPA Section 608 for handling refrigerants demonstrate a technician's competence in managing environmentally sensitive materials safely. Additionally, many vocational schools offer specific courses tailored to mobile home HVAC systems that emphasize hands-on experience alongside theoretical knowledge.


Continuing education is another essential component for staying updated with both technological advancements in HVAC systems and evolving OSHA regulations. This commitment ensures that technicians not only meet current standards but also anticipate future industry requirements.


In summary, achieving proficiency in following OSHA standards involves comprehensive training and certification processes that prioritize safety without compromising service quality. By adhering to these stringent guidelines during mobile home AC installations, technicians protect themselves while delivering optimal cooling solutions to their clients. The responsibility is significant but fulfilling-ensuring comfort within living spaces while upholding rigorous safety protocols reflects the essence of skilled craftsmanship guided by regulatory diligence.

Best Practices for Ensuring Structural Integrity During Installation and Maintenance

Installing air conditioning units in mobile homes involves a unique set of challenges, some of which can pose significant hazards if not properly managed. Following OSHA standards is crucial to ensure the safety and well-being of workers involved in these installations. In this essay, we will explore common hazards encountered during mobile home AC installations and discuss strategies to mitigate them effectively.


One prevalent hazard during AC installation is the risk of falls. Mobile homes often require technicians to work at heights or on unstable surfaces, increasing the likelihood of accidents. To mitigate this risk, it is essential to implement proper fall protection measures. According to OSHA standards, this includes using personal fall arrest systems, guardrails, or safety nets when working above certain heights. Additionally, ensuring that ladders are stable and appropriate for the task can prevent slip-and-fall incidents.


Electrical hazards also pose a significant threat during installation projects. AC units require connection to electrical systems, exposing workers to risks such as electric shock or arc flash incidents. To mitigate these dangers, it is crucial to de-energize circuits before beginning work and use lockout/tagout procedures as stipulated by OSHA guidelines. Proper grounding and the use of insulated tools further enhance worker safety by minimizing electrical exposure.


Another common hazard involves handling heavy equipment and materials, which can lead to musculoskeletal injuries due to overexertion or improper lifting techniques. Training workers on safe lifting practices is vital in preventing these injuries. Utilizing mechanical aids like hoists or dollies can significantly reduce physical strain on workers. Furthermore, encouraging teamwork when moving heavy objects ensures that no single worker bears an excessive load.


Environmental conditions also contribute to potential hazards during mobile home AC installations. Extreme heat can lead to heat stress or dehydration among workers laboring outdoors for extended periods. Implementing rest breaks in shaded areas and providing access to water allows workers to stay hydrated and maintain their health throughout the day.


Lastly, confined spaces within mobile homes present unique challenges that must be addressed carefully. These areas may have limited ventilation or pose risks from hazardous atmospheres such as gas leaks or insufficient oxygen levels. Adhering strictly to OSHA's confined space entry protocols ensures that necessary precautions are taken before entering such environments.


In conclusion, understanding common hazards associated with mobile home AC installations is critical for maintaining worker safety while following OSHA standards diligently helps mitigate these risks effectively-whether through implementing robust fall protection systems; adhering strictly electrical safety protocols; promoting proper lifting techniques; ensuring safe environmental conditions; addressing confined space concerns-all play key roles in creating safer worksites overall . By prioritizing compliance with established regulations , companies not only protect their employees but also foster more productive working environments conducive achieving successful project outcomes .

Ensuring compliance through regular inspections and audits is a critical component of maintaining safety standards, particularly when it comes to following OSHA standards during mobile home AC installations. The Occupational Safety and Health Administration (OSHA) sets forth guidelines that are designed to protect workers within various industries by promoting safe working conditions. In the context of mobile home air conditioning installations, adherence to these standards is essential not only for safeguarding the health and well-being of employees but also for ensuring the quality and durability of the installations themselves.


Mobile homes present unique challenges in terms of AC installation due to their design and construction materials. These structures often require specialized installation techniques, making it imperative that technicians are both skilled and knowledgeable about OSHA guidelines. Regular inspections serve as a mechanism for verifying that all safety protocols are being followed meticulously. Inspections can identify potential hazards such as improper lifting techniques, which could lead to musculoskeletal injuries, or electrical risks associated with faulty wiring or inadequate grounding.


Audits complement these inspections by providing a comprehensive review of an organization's adherence to OSHA standards over time. They offer a broader perspective on systemic issues that might not be evident from individual inspections alone. For instance, audits can reveal trends such as recurring violations or emerging risks in new installation technologies or processes. By analyzing these patterns, companies can proactively address underlying problems before they result in accidents or regulatory penalties.


Moreover, integrating regular inspections and audits into routine practices fosters a culture of safety within organizations involved in mobile home AC installations. It sends a clear message that safety is prioritized at every level-from management down to the newest technician on site. This cultural emphasis encourages employees to remain vigilant about their personal safety practices while also empowering them to speak up if they notice potential hazards.


In addition to enhancing worker safety, adhering strictly to OSHA standards through diligent inspections and audits offers business advantages. Compliance reduces the likelihood of costly fines associated with non-compliance while also minimizing downtime resulting from workplace accidents. Furthermore, companies known for their commitment to safety are more likely to attract skilled workers who value working in environments where their health is safeguarded.


Overall, ensuring compliance with OSHA standards during mobile home AC installations through regular inspections and audits is a multifaceted approach that benefits both employees and employers alike. It helps create safer workplaces while also reinforcing operational efficiency and protecting company reputations within the industry. As technology evolves and new challenges emerge in this field, maintaining rigorous inspection and audit processes will remain an indispensable aspect of responsible business practice.

Room air distribution is characterizing how air is introduced to, flows through, and is removed from spaces.[1] HVAC airflow in spaces generally can be classified by two different types: mixing (or dilution) and displacement.

Mixing systems

[edit]

Mixing systems generally supply air such that the supply air mixes with the room air so that the mixed air is at the room design temperature and humidity. In cooling mode, the cool supply air, typically around 55 °F (13 °C) (saturated) at design conditions, exits an outlet at high velocity. The high-velocity supply air stream causes turbulence causing the room air to mix with the supply air. Because the entire room is near-fully mixed, temperature variations are small while the contaminant concentration is fairly uniform throughout the entire room. Diffusers are normally used as the air outlets to create the high-velocity supply air stream. Most often, the air outlets and inlets are placed in the ceiling. Supply diffusers in the ceiling are fed by fan coil units in the ceiling void or by air handling units in a remote plant room. The fan coil or handling unit takes in return air from the ceiling void and mix this with fresh air and cool, or heat it, as required to achieve the room design conditions. This arrangement is known as 'conventional room air distribution'.[2]

Outlet types

[edit]
  • Group A1: In or near the ceiling that discharge air horizontally[3]
  • Group A2: Discharging horizontally that are not influenced by an adjacent surface[3]
  • Group B: In or near the floor that discharge air vertically in a linear jet[3]
  • Group C: In or near the floor that discharge air vertically in a spreading jet[3]
  • Group D: In or near the floor that discharge air horizontally[3]
  • Group E: Project supply air vertically downward[3]

Displacement ventilation

[edit]
Main article: Displacement ventilation

Displacement ventilation systems supply air directly to the occupied zone. The air is supplied at low velocities to cause minimal induction and mixing. This system is used for ventilation and cooling of large high spaces, such as auditorium and atria, where energy may be saved if only the occupied zone is treated rather than trying to control the conditions in the entire space.

Displacement room airflow presents an opportunity to improve both the thermal comfort and indoor air quality (IAQ) of the occupied space. It also takes advantage of the difference in air density between an upper contaminated zone and a lower clean zone. Cool air is supplied at low velocity into the lower zone. Convection from heat sources creates vertical air motion into the upper zone where high-level return inlets extract the air. In most cases these convection heat sources are also the contamination sources (e.g., people, equipment, or processes), thereby carrying the contaminants up to the upper zone, away from the occupants.

The displacement outlets are usually located at or near the floor with the air supply designed so the air flows smoothly across the floor. Where there is a heat source (such as people, lighting, computers, electrical equipment, etc.) the air will rise, pulling the cool supply air up with it and moving contaminants and heat from the occupied zone to the return or exhaust grilles above. By doing so, the air quality in the occupied zone is generally superior to that achieved with mixing room air distribution.

Since the conditioned air is supplied directly into the occupied space, supply air temperatures must be higher than mixing systems (usually above 63 °F or 17 °C) to avoid cold draughts at the floor. By introducing the air at supply air temperatures close to the room temperature and low outlet velocity a high level of thermal comfort can be provided with displacement ventilation.

See also

[edit]
  • Dilution (equation)
  • Duct (HVAC)
  • HVAC
  • Lev door
  • Underfloor air distribution
  • Indoor air quality
  • Thermal comfort
  • Air conditioning
  • ASHRAE
  • SMACNA

References

[edit]
  1. ^ Fundamentals volume of the ASHRAE Handbook, Atlanta, GA, USA, 2005
  2. ^ Designer's Guide to Ceiling-Based Room Air Diffusion, Rock and Zhu, ASHRAE, Inc., Atlanta, GA, USA, 2002
  3. ^ a b c d e f ASHRAE Handbook: Fundamentals, 2021
 

 

For electric consumption, see Electric energy consumption.

Energy consumption is the amount of energy used.[1]

Biology

[edit]

In the body, energy consumption is part of energy homeostasis. It derived from food energy. Energy consumption in the body is a product of the basal metabolic rate and the physical activity level. The physical activity level are defined for a non-pregnant, non-lactating adult as that person's total energy expenditure (TEE) in a 24-hour period, divided by his or her basal metabolic rate (BMR):[2]

Demographics

[edit]

Topics related to energy consumption in a demographic sense are:

  • World energy supply and consumption
  • Domestic energy consumption
  • Electric energy consumption

Effects of energy consumption

[edit]
  • Environmental impact of the energy industry
    • Climate change
  • White's law

Reduction of energy consumption

[edit]
  • Energy conservation, the practice of decreasing the quantity of energy used
  • Efficient energy use

See also

[edit]
  • Energy efficiency
  • Energy efficiency in transport
  • Electricity generation
  • Energy mix
  • Energy policy
  • Energy transformation

References

[edit]
  1. ^ "Energy consumption definition and meaning - Collins English Dictionary". www.collinsdictionary.com.
  2. ^ "Human energy requirements: Principles and Definitions". Report of a Joint FAO/WHO/UNU Expert Consultation. Food and Agriculture Organization of the United Nations. 2004. Retrieved 2009-10-15.
[edit]
Wikibooks has a book on the topic of: How to reduce energy usage
  • Media related to Energy consumption at Wikimedia Commons
  • World energy consumption per capita per country
 

 

Photo
Photo
Photo

Things To Do in Tulsa County

Photo

Route 66 Historical Village

4.4 (718)
Photo

Philbrook Museum of Art

4.8 (3790)
Photo

The Tulsa Arts District

4.7 (22)
Photo

Gathering Place

4.8 (12116)
Photo

Golden Driller Statue

4.6 (1935)
Photo

Streetwalker Tours

0 (0)

Driving Directions in Tulsa County

Driving Directions From Church on the Move Tulsa to Durham Supply Inc
Driving Directions From Tuff Shed Tulsa to Durham Supply Inc
Driving Directions From Brookhaven Hospitales to Durham Supply Inc

https://www.google.com/maps/dir/Camp+Bow+Wow/Durham+Supply+Inc/@36.1592217,-95.8133058,14z/data=!3m1!4b1!4m14!4m13!1m5!1m1!1sChIJtec_BYP0tocR4OerOd444pQ!2m2!1d-95.8133058!2d36.1592217!1m5!1m1!1sChIJDzPLSIrytocRY_EaORpHGro!2m2!1d-95.8384781!2d36.1563128!3e0

https://www.google.com/maps/dir/Catoosa/Durham+Supply+Inc/@36.188987,-95.745817,14z/data=!3m1!4b1!4m14!4m13!1m5!1m1!1sChIJIyDaONL1tocRAFQS_6MxGwc!2m2!1d-95.745817!2d36.188987!1m5!1m1!1sChIJDzPLSIrytocRY_EaORpHGro!2m2!1d-95.8384781!2d36.1563128!3e2

https://www.google.com/maps/dir/Lincoln+Christian+School/Durham+Supply+Inc/@36.1679707,-95.8301783,14z/data=!3m1!4b1!4m14!4m13!1m5!1m1!1sChIJvT__rp_ztocR4rNODZ-URQA!2m2!1d-95.8301783!2d36.1679707!1m5!1m1!1sChIJDzPLSIrytocRY_EaORpHGro!2m2!1d-95.8384781!2d36.1563128!3e1

https://www.google.com/maps/dir/Brookhaven+Hospitales/Durham+Supply+Inc/@36.1581877,-95.8495188,14z/data=!3m1!4b1!4m14!4m13!1m5!1m1!1sChIJ05Q-HwTztocR0q6HuDgEScA!2m2!1d-95.8495188!2d36.1581877!1m5!1m1!1sChIJDzPLSIrytocRY_EaORpHGro!2m2!1d-95.8384781!2d36.1563128!3e3

Driving Directions From Route 66 Historical Village to Durham Supply Inc
Driving Directions From Gathering Place to Durham Supply Inc
Driving Directions From Tours of Tulsa to Durham Supply Inc
Driving Directions From The Blue Dome to Durham Supply Inc
Driving Directions From Gathering Place to Durham Supply Inc
Driving Directions From Streetwalker Tours to Durham Supply Inc

https://www.google.com/maps/dir/Gathering+Place/Durham+Supply+Inc/@36.1251603,-95.9840207,14z/data=!3m1!4b1!4m14!4m13!1m5!1m1!1sunknown!2m2!1d-95.9840207!2d36.1251603!1m5!1m1!1sChIJDzPLSIrytocRY_EaORpHGro!2m2!1d-95.8384781!2d36.1563128!3e0

https://www.google.com/maps/dir/Tours+of+Tulsa/Durham+Supply+Inc/@36.1003128,-95.9693584,14z/data=!3m1!4b1!4m14!4m13!1m5!1m1!1sunknown!2m2!1d-95.9693584!2d36.1003128!1m5!1m1!1sChIJDzPLSIrytocRY_EaORpHGro!2m2!1d-95.8384781!2d36.1563128!3e2

https://www.google.com/maps/dir/Woodward+Park+and+Gardens/Durham+Supply+Inc/@36.1319247,-95.9736606,14z/data=!3m1!4b1!4m14!4m13!1m5!1m1!1sunknown!2m2!1d-95.9736606!2d36.1319247!1m5!1m1!1sChIJDzPLSIrytocRY_EaORpHGro!2m2!1d-95.8384781!2d36.1563128!3e1

https://www.google.com/maps/dir/The+Cave+House/Durham+Supply+Inc/@36.1517211,-96.0112668,14z/data=!3m1!4b1!4m14!4m13!1m5!1m1!1sunknown!2m2!1d-96.0112668!2d36.1517211!1m5!1m1!1sChIJDzPLSIrytocRY_EaORpHGro!2m2!1d-95.8384781!2d36.1563128!3e3

Reviews for Durham Supply Inc

Durham Supply Inc

Gerald Clifford Brewster

(5)

We will see, the storm door I bought says on the tag it's 36x80, but it's 34x80. If they return it.......they had no problems returning it. And it was no fault of there's, you measure a mobile home door different than a standard door!

Durham Supply Inc

B Mann

(5)

I was in need of some items for a double wide that I am remodeling and this place is the only place in town that had what I needed ( I didn't even try the other rude place )while I was there I learned the other place that was in Tulsa that also sold mobile home supplies went out of business (no wonder the last time I was in there they were VERY RUDE and high priced) I like the way Dunham does business they answered all my questions and got me the supplies I needed, very friendly, I will be back to purchase the rest of my items when the time comes.

Durham Supply Inc

Ty Spears

(5)

Bought a door/storm door combo. Turns out it was the wrong size. They swapped it out, quick and easy no problems. Very helpful in explaining the size differences from standard door sizes.

Durham Supply Inc

Ethel Schiller

(5)

This place is really neat, if they don't have it they can order it from another of their stores and have it there overnight in most cases. Even hard to find items for a trailer! I definitely recommend this place to everyone! O and the prices is awesome too!

Durham Supply Inc

Dennis Champion

(5)

Durham supply and Royal supply seems to find the most helpful and friendly people to work in their stores, we are based out of Kansas City out here for a few remodels and these guys treated us like we've gone there for years.

View GBP

Check our other pages :