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Evaluation of the Make It Home Repair Program
REINFORCING LOW-INCOME HOMEOWNERSHIP FEBRUARY 2021 THROUGH HOME REPAIR: EVALUATION OF THE MAKE IT HOME REPAIR PROGRAM By Alexa Eisenberg, Connor Wakayama, and Patrick Cooney INTRODUCTION For most Detroit residents with low incomes, safe and afford- KEY FINDINGS able housing is far out of reach. An inadequate supply of subsi- dized housing units and vouchers, coupled with a recent history • Program participants faced multiple, major home of mortgage and tax foreclosures, leaves a growing number repair needs that impacted the safety and livabil- of low-income households to seek shelter in an increasingly ity of their homes. Program-eligible homeowners competitive private rental market. In 2019, housing costs were reported an average of three major repair needs re- unaffordable for 73% of Detroit renters earning less than lated to their home’s structural elements or systems. $35,000, with nearly half of these households spending at least The most common need related to roofing. 50% of their monthly incomes on rent.1 The majority of Detroit rental properties lack registration certifying code compliance; • Small-sum repair grants addressed many of partic- as a result, thousands of landlords operate their rental units ipants’ critical repair needs. A median of $6,000 per in violation of health and safety codes.2 Substandard housing participant in monetary and in-kind grants enabled conditions are commonplace in Detroit’s aged housing stock, participating homeowners to address, on average, and landlords file for eviction against the equivalent of one in one of every two major repair needs. 3 five renting households each year. Landlord disinvestment and • Homeowners reported improvements to the safety foreclosures lead many tenants to endure prolonged periods of of their housing and stability of their ownership as 4 disrepair and the threat of displacement. -
Home Repair Assistance Guidelines and Check List
45644 Veterans Memorial Drive PO Box 766 ~ Agency Village SD 57262 Phone: (605) 698-7747 ~ Fax: (605) 698-4216 Home Repair Assistance Guidelines and Check List 1. The maximum allowed home repair assistance is $2500 over a two year period. This amount includes both material and labor costs combined. 2. District members can only be served once every two years under this program. 3. Applicant must be an enrolled member of the Sisseton-Wahpeton Oyate. 4. Applicant must be an adult registered member of the Old Agency District. 5. Applicant must have title to the house to be repaired. A copy of the deed must be attached to the application. 6. Only repairs addressing health and safety and issues will be considered. Luxury items and repairs are not acceptable. 7. Applicant is required to attach “Before Pictures” with the application. 8. Applicant will be required to attach a copy of the materials list and costs. 9. Applicant is required to attach a copy of the contractor’s quoted labor costs. 10.Applicant will be required to sign off on the work completed by the contractor. 11.Applicant is required to submit “After Pictures” of the work completed. OAD Home Repair Assistance Page 1 of 3 45644 Veterans Memorial Drive PO Box 766 ~ Agency Village SD 57262 Phone: (605) 698-7747 ~ Fax: (605) 698-4216 Home Repair Assistance Application Applicant Information First Name MI Last Name Mailing Address City State Zip Code County Date of Birth Disabled? Marital Status Total in House Social Security Number Home Phone Cell Phone Work Phone Email Address Physical Address if different than mailing address. -
078400S02 FIRESTOPPING – Mechanical Room Floor Penetrations
078400S02 FIRESTOPPING – Mechanical Room Floor Penetrations The following standard applies to all added floor penetrations in any existing mechanical room, electrical room or penthouse mechanical area above slab level in all facilities maintained by the University of Kentucky. Affected penetrations include, but are not limited to, the following: conduit, pipes, and ductwork. For new facilities, housekeeping curbs should be constructed during the initial building construction which would eliminate the need for this standard. 1.0 All penetrations must be fire stopped per the applicable NFPA (National Fire Protection Association) and State of Kentucky Building Codes with the appropriate UL listed fire stop assembly being utilized. The UL listing documentation must be available for the installed assembly upon request by the inspecting authority or by the University representative. 2.0 In addition to the required fire stopping outlined in section 1.0 above, all penetrations are to be protected by materials meeting an UL Tested Class 1 W-rating to restrict the flow of water. 3.0 For pipes and conduits, a curb is to be installed around the opening with a self leveling, single- component, silicone-based firestop sealant used in the slab and the curb. The installation is to consist of a steel angle mechanically fastened to the floor to create a curb with the firestop sealant installed in the curb and slab sealing up to the penetrating item. The sealant is to be white in color. See drawing 1 below for better clarification. 4.0 For ductwork, a curb is to be installed around the opening with a self leveling, single-component, silicone-based firestop sealant used in the slab and the curb. -
The Fireplace, Rekindled
The fireplace, rekindled. PRECISION-ENGINEERED MASONRY FIREPLACES FireRock offers a simple way to build a high-end, all-masonry fireplace and chimney. This smartly designed system installs in a matter of hours for less than half the cost of a traditional brick & mortar fireplace. Not only does it look great, it lasts forever. Why FireRock? Installs Fast. Installs in less than a day compared to 1 to 2 weeks for traditional brick & mortar. Strong. 3000 PSI compressive strength. The strongest on the market. Smart. Costs 50% less than traditional brick & mortar, and is precision-engineered to draw correctly. Stunning. Looks better and lasts longer than a “metal box” fireplace. Long Lasting. All models come with a 20 year warranty and a 100 year life expectancy. You could spend twice as much building a traditional brick & mortar fireplace, but the only person that would know would be your accountant. CONVENTIONAL RUMFORD OUTDOOR • FireRock’s traditional model • Taller opening allows for a larger • FireRock’s solution for use in outdoor • Angled back wall for better heat reflection fire and greater heat reflection living spaces • Can be installed on a combustible floor using • Great for homes with high ceilings • Firebox and chimney deliver on LiteRock installation application • Accommodates FireRock masonry or a single pallet • Accommodates FireRock masonry or approved metal chimney system Available in three sizes: 30”, 36”, and 42” approved metal chimney system Available in four sizes: 30”, 36”, 42”, and 48” Available in six sizes: 30”, 36”, -
Southern California Edison
Emerging Products Residential Crawl Space and Attic Conditioning and Sealing Retrofits ET14SCE1100 & DR14.07.00 Final Report Prepared by: Engineering Services / Emerging Products Customer Programs & Services Southern California Edison July 2019 Residential Crawl Space and Attic Conditioning and Sealing Retrofits ET14SCE1100 & DR14.07.00 Acknowledgements Southern California Edison's (SCE) Emerging Products (EP) group is responsible for this project. It was developed as part of Southern California Edison's Emerging Technologies Program and Emerging Markets & Technologies under internal project numbers ET14SCE1100 & DR14.07.00. M. M. Valmiki, P.E., Akane Karasawa, P.E., and Antonio Corradini, P.E., with Alternative Energy Systems Consulting, Inc. (AESC) conducted this technology evaluation with overall guidance and management from Ron Kliewer, Jay Madden, Bach Tsan, and Jerine Ahmed. Contact [email protected] or more information on this project. Disclaimer This report was prepared by Southern California Edison (SCE) and funded by California utility customers under the auspices of the California Public Utilities Commission. Reproduction or distribution of the whole or any part of the contents of this document without the express written permission of SCE is prohibited. This work was performed with reasonable care and in accordance with professional standards. However, neither SCE nor any entity performing the work pursuant to SCE’s authority make any warranty or representation, expressed or implied, with regard to this report, the merchantability or fitness for a particular purpose of the results of the work, or any analyses, or conclusions contained in this report. The results reflected in the work are generally representative of operating conditions; however, the results in any other situation may vary depending upon particular operating conditions. -
Assessing and Repairing YOUR GARAGE STRUCTURE
for do-self or contracted repairs Assessing and Repairing YOUR GARAGE STRUCTURE Sooner or later, most homeowners must decide whether it’s better to repair or replace an old garage. We suggest that you start by taking a good look at its overall structure. In communities with older homes, many garages were built for smaller cars. They were certainly not built to the quality standards of the houses – in fact, they may not have been designed to be permanent structures at all. As a result, some areas that frequently fail are: • the place the wall framing meets the foundation (if there even is a foundation!) • the rigidity of the side walls • the structural framework of the roof (which is often undersized or improperly supported) • the framework around the doors and windows • a rear wall that has either rotted out because there was never a gutter installed, or has had an extension for a longer car cut into it, destroying what little structural integrity it may have had originally. The framing system of a garage (see illustrations at right and on last page) starts at the bottom with a sill board, the piece of wood that sits on the foundation and upon which the wall is built.) This board is attached to the wall studs. At the top of the studs is a top plate, usually two 2 x 4’s nailed together. Roof rafters, the boards that support the wood and shingles on the roof, usually rest on top of the top plate. If any part of your framing system is damaged from water leaks or insects, it will weaken the whole structure. -
Bilco Floor, Vault and Sidewalk Doors Provide Reliable Access to Equipment Stored Underground Or Below/Between Building Floors
Floor & Vault Doors Bilco Floor, Vault and Sidewalk Doors provide reliable access to equipment stored underground or below/between building floors. Commonly used by gas, electric and water utilities for frequent access by service personnel, Bilco doors are available in many different sizes and configurations to suit any application. Floor & Vault Doors Advantages of Floor, Vault and Sidewalk Doors Bilco Floor, Vault and Sidewalk Doors are ruggedly constructed to provide many years of dependable service. Doors are available in a wide range of sizes and configurations, and all models offer the following standard features and benefits: • Engineered lift assistance for smooth, easy door operation, regardless of cover size and weight • Automatic holdopen arm that locks the cover in the open position to ensure safe egress • Type 316 stainless steel slam lock to prevent unauthorized access • Constructed with corrosion resistant materials and hardware • Heavy duty hinges, custom engineered for horizontal door applications Positive latching mechanism Structurally reinforced cover with finished edges Heavy-duty hinges Automatic hold-open arm with convenient release handle Lift assistance counterbalances cover Type J-AL door shown Typical Applications • Airports • Manufacturing Facilities • Schools • Correctional Facilities • Natural Gas Utilities •Telecommunications Vaults • Electric Utilities • Office Buildings •Transit Systems • Factories • Processing Plants •Warehouses • Hospitals • Retail Structures •Water/Waste Treatment Plants Drainage Doors Type J Steel Type J Type J-AL Aluminum With Drainage Channel Frame For use in exterior applications where there is concern about water or other liquids entering the access opening. Type J H20 Steel Type J H20 Type J-AL H20 Aluminum With Drainage Channel Frame For use in exterior applications where the doors will be subjected to vehicular traffic. -
Basement Flood Mitigation
1 Mitigation refers to measures taken now to reduce losses in the future. How can homeowners and renters protect themselves and their property from a devastating loss? 2 There are a range of possible causes for basement flooding and some potential remedies. Many of these low-cost options can be factored into a family’s budget and accomplished over the several months that precede storm season. 3 There are four ways water gets into your basement: Through the drainage system, known as the sump. Backing up through the sewer lines under the house. Seeping through cracks in the walls and floor. Through windows and doors, called overland flooding. 4 Gutters can play a huge role in keeping basements dry and foundations stable. Water damage caused by clogged gutters can be severe. Install gutters and downspouts. Repair them as the need arises. Keep them free of debris. 5 Channel and disperse water away from the home by lengthening the run of downspouts with rigid or flexible extensions. Prevent interior intrusion through windows and replace weather stripping as needed. 6 Many varieties of sturdy window well covers are available, simple to install and hinged for easy access. Wells should be constructed with gravel bottoms to promote drainage. Remove organic growth to permit sunlight and ventilation. 7 Berms and barriers can help water slope away from the home. The berm’s slope should be about 1 inch per foot and extend for at least 10 feet. It is important to note permits are required any time a homeowner alters the elevation of the property. -
Home Repairs
HOME R EPAIR S BOY SCOUTS OF AMERICA MERIT BADGE SERIES HOME REPAIRS “Enhancing our youths’ competitive edge through merit badges” Note to the Counselor Nothing encourages pride in one’s surroundings more than being able to improve them through one’s own initiative and resources. That is why the Home Repairs merit badge can be so important to the development of a young person. Once a Scout learns basic home repair skills and applies them to his own environment, he will have a lifetime resource: his ability to learn new skills. Home repair, however, can be intimidat- ing at first, especially if the Scout lacks a role model for such activities. If possible, provide one-on-one or group activities that will get the Scout off to a good start. Encourage each Scout to acquire a good set of basic tools, and help Scouts learn to keep their tools in one place and in good repair. That way, they will “be prepared” to handle repairs as needed. There is no time limit for completing the requirements. Major tasks, such as waterproofing a basement, may be completed in tandem with another Boy Scout working on the requirement, and/or with the assistance of an adult. The majority of the work, however, should be performed by the Scouts earning the badge. This book provides a good overview of home-repair projects, but it is by no means a complete reference. For some requirements, space does not permit going into construction details or listing all possible repair variations. Therefore, any new construction or installation or completion of a similar project (for example, any toilet repair or adjustment) qualifies as achieving the requirement so long as the Boy Scout under- stands and demonstrates the basic concepts involved. -
Corporate Office Employee Analysis: Transformation from Closed Office Layout to Open Floor Plan Environment
University of Nebraska - Lincoln DigitalCommons@University of Nebraska - Lincoln Theses from the Architecture Program Architecture Program Winter 12-1-2011 CORPORATE OFFICE EMPLOYEE ANALYSIS: TRANSFORMATION FROM CLOSED OFFICE LAYOUT TO OPEN FLOOR PLAN ENVIRONMENT Stephanie J. Fanger University of Nebraska-Lincoln, [email protected] Follow this and additional works at: https://digitalcommons.unl.edu/archthesis Part of the Interior Architecture Commons, and the Other Architecture Commons Fanger, Stephanie J., "CORPORATE OFFICE EMPLOYEE ANALYSIS: TRANSFORMATION FROM CLOSED OFFICE LAYOUT TO OPEN FLOOR PLAN ENVIRONMENT" (2011). Theses from the Architecture Program. 123. https://digitalcommons.unl.edu/archthesis/123 This Article is brought to you for free and open access by the Architecture Program at DigitalCommons@University of Nebraska - Lincoln. It has been accepted for inclusion in Theses from the Architecture Program by an authorized administrator of DigitalCommons@University of Nebraska - Lincoln. CORPORATE OFFICE EMPLOYEE ANALYSIS: TRANSFORMATION FROM CLOSED OFFICE LAYOUT TO OPEN FLOOR PLAN ENVIRONMENT by Stephanie Julia Fanger A THESIS Presented to the Faculty of The Graduate College at the University of Nebraska In Partial Fulfillment of Requirements For the Degree of Master of Science Major: Architecture Under the Supervision of Professor Betsy S. Gabb Lincoln, Nebraska December, 2011 CORPORATE OFFICE EMPLOYEE ANALYSIS: TRANSFORMATION FROM CLOSED OFFICE LAYOUT TO OPEN FLOOR PLAN ENVIRONMENT Stephanie J. Fanger, M.S. University of Nebraska, 2011 Advisor: Betsy Gabb The office workplace within the United States has undergone monumental changes in the past century. The Environmental Protection Agency (EPA) has cited that Americans spend an average of 90 percent of their time indoors. As human beings can often spend a majority of the hours in the day at their workplace, more so than their home, it is important to understand the effects of the built environment on the American office employee. -
Installation Manual
DUET SUPREME FIREPLACES FACTORY-BUILT FIREPLACE MODEL DUET, DUET 4 SEASONS Tested and certified by Intertek • UL 127 • ULC-S610 OWNER’S MANUAL INSTALLATION OPERATION MAINTENANCE Keep these instructions for future use. Manufactured by: 3594 Jarry East, Montreal, QUEBEC, H1Z 2G4 Phone: 1-877-593-4722 Fax: (514) 593-4424 www.supremem.com [email protected] 1 Revised: July 2018 DUET SUPREME FIREPLACES TABLE OF CONTENTS 1. SAFETY GUIDELINES FOR YOUR DUET ………………………………………………….................... 3 2. OPERATING INSTRUCTIONS ……………………………………………………………………................. 4 2.1 Fuel …………………………………………………………………………………………………………… 4 2.2 First Fires ……………………………………………………………………………………………………. 4 2.3 The Combustion Air Control ………………………………………………………………………………. 4 2.3.1 Operating the Combustion Air Control ……………………………………………………………… 4 2.4 Starting a Fire ………………………………………………………………………………………………... 5 2.5 Adding a New Load of Wood ………………………………………………………………………………. 6 2.6 Smoking ……...……………………………………………………………………………………………… 6 2.7 Built-in Barbecue ……………………………………………………………………………………………. 6 3. MAINTENANCE OF THE DUET …………………………………………………………………………. 7 3.1 Creosote – Formation and Need for Removal ……………………………………………………………… 7 3.2 Chimney Maintenance ………………………………………………………………………………………. 7 3.3 Chimney Sweeping Cap …………………………………………………………………………………….. 7 3.4 Paint …………………………………………………………………………………………………………. 8 3.5 Disposal of Ashes ……………………………………………………………………………………………. 8 3.6 Glass Cleaning ………………………………………………………………………………………………... 8 3.7 Glass Replacement ………………………………………………………………………………………….. 9 3.8 Gasket Replacement -
Butterflymx Elevator Control System (ECS) by Using a Few Specific Use-Cases
Elevator Controls SUPPORT: P: 571-480-6579 ext. 2 (Mon-Fri, 6am-10pm EST) elevator-control-setup-v8-2021-02-24 E: The purpose of this document is to demonstrate the versatility of the ButterflyMX elevator control system (ECS) by using a few specific use-cases. These are all real-world scenarios where the ButterflyMX system has been installed with elevator controls. This document assumes that the reader has a basic level of familiarity with our hardware, for example making sure one wire is terminated to B, and one to IN. For additional documentation on our elevator control system refer to: http://butterflymx.com/resources Scenario 1: “I want a floor-by-floor lockout.” Floor 6 Solution: The lockout scheme determined by the elevator controller is accommodated by the Floor 5 ButterflyMX ECS. Each floor is locked out by default and there is a card reader in the elevator cab. Residents use their key fob to access the Floor 4 floor that they live on. When a visitor calls a resident from the ButterflyMX Touchscreen at Floor 3 the building access point, the resident grants them access and the floor that the resident lives on is unlocked in the elevator cab. There is a Floor 2 customizable timer that determines the length of time the floor is unlocked for. Floor 1 Hardware Required: 1. ButterflyMX Smart Intercom BMX 2. Elevator Control Hardware Elevator Cab Elevator Wiring Diagram Floor-by-Floor Lockout Elevator Controls SUPPORT: P: 571-480-6579 ext. 2 (Mon-Fri, 6am-10pm EST) elevator-control-setup-v8-2021-02-24 E: Scenario 2: “There are multiple elevator cabs in one bank in the building, with a floor-by-floor lockout.