Architectural Design Standard Review is required as part of all Site Plan Review applications for non-residential and multi-family uses as defined by the Town of Wolfeboro Zoning Ordinance. Projects that do not require site plan review are not required to conform to these regulations.

In any case where inconsistencies exist between these standards and the Zoning Ordinance, the Zoning Ordinance shall supersede.

All applications shall include elevation drawings and other materials as needed by the Planning Board to conduct a review such as photographs, drawings, and product literature and samples.

All site plan review applications shall include photographs or visual evidence of the character surrounding the development, properly scaled building elevations and plans, and cut sheets of materials if applicable.

An application is considered to meet these regulations if the Planning Board finds by vote of the majority that the application demonstrates conformity with these regulations.

Waiver requests shall be reviewed in accordance with the Town of Wolfeboro Site Plan Review Regulations and pursuant to New Hampshire Revised Statutes Annotated section 674:44 III.(e).

Any substantial modifications to materials approved by the Planning Board under these regulations shall require further review and approval by the Board.

The location and placement of a building on a site can impact not only the site, but the architectural character of the surrounding area. The orientation and location of proposed buildings are controlled by the Town of Wolfeboro Zoning Ordinance which includes dimensional controls such as building setbacks and lot coverage standards.

The coherence of the street is important. In more densely developed areas, such as the Greater Downtown area, buildings shall be consistently aligned with each other.

Connections via pedestrian infrastructure such as sidewalks, courtyards, and pocket parks are desirable to enhance pedestrian oriented development, calm traffic, and create a stronger sense of community and place.

A well-designed building is typically one with a very simple form, quality materials, and traditional proportions.

Building height, scale, massing and proportion shall complement the architectural character of the surrounding area.

A building shall have one main block which is discernible as such.

Structures with a large footprint shall be broken up into multiple discernible blocks. Structures that are larger and elongated shall be broken up into smaller masses.

Vertical proportions are more appropriate because they reflect the human scale and are typical of structures in Wolfeboro. This proportion shall be exhibited in the overall design and evident in the various parts of the building such as entry doors, porches, columns, windows and dormers.

Columns and building features shall be in scale with the existing character of the surrounding area.

A ratio of 3:5 or 5:8 is a good guide to human vertical proportion. This is the standard proportion of many traditional window openings throughout town.

Roofs shall reflect the existing character found in the Town of Wolfeboro. Traditional and common roof types include gabled, hipped, and flat with cornice.

Mansard roofs are not typically found in the town of Wolfeboro and are therefore discouraged.

The scale of larger buildings should be minimized by variations in rooflines and can be achieved with dormers, cross gables, cupolas, or other elements.

Regionally appropriate roof materials are required.

"Green" roofs including those that are vegetated or incorporate green energy technology are encouraged.

Windows, shutters, doors, and mouldings shall be complementary to the building's form and scale.

Windows are a critical component of a building and shall align vertically and horizontally in order to establish a coherent and orderly pattern and rhythm and shall be in balanced proportion to the wall.

Windows and window panes shall be vertical in orientation, with horizontal to vertical human proportions, generally of 3:5.

Window components shall be authentic in character. For example, shutters shall be sized to completely cover the window opening should they be closed.

The use of large glass windows, with or without mullions, is appropriate for storefronts provided that the orientation of such windows is vertical.

Entrances are an integral element in the definition of a building. Entrances may be defined by various features including a canopy, awning, portico, colonnade, sidelights, transom window, or some combination of these.

The primary entrance shall be located on a front facade and shall be recognizable and prominent.

Rear and side entrances, though secondary, shall be designed with the same intent as front entrances.

Mechanical or utility equipment shall not be exposed to view. Such elements shall be appropriately screened.

The use of traditional materials that reflect the existing character of Wolfeboro and New England architecture is required.

Traditional building materials such as granite, brick, wood, and fieldstone are preferred. In the event these materials are not utilized, alternative materials that simulate these traditional ones shall be used.

Exposed block, ceramic roof tiles, corrugated steel, sheet metal, sheet plastic, and sheet fiberglass are prohibited.

In instances where an existing building has design features inconsistent with these design standards, renovations or additions, may be designed to correspond with the existing materials, proportions, scale, and features of the existing structure(s).

These standards acknowledge that in some instances a non-conforming renovation or addition to a building may be appropriate.

In the case of additions to designated historic structures, new construction should harmonize with, yet be differentiated from and subservient to, original structures.

Information specifying the proposed number of employees, customers, visitors, clients, shifts, and deliveries;

Anticipated parking demand by time of day and/or demand by use;

Anticipated parking utilizing shared spaces or dual use based on a shared parking analysis utilizing current industry publications;

Any other information that may be necessary to understand the current and projected parking demand.

The approval granted will automatically terminate upon the termination of any establishment participating in the joint use.

The approval will automatically terminate upon any substantial change in the time pattern of the joint use of spaces by any establishment participating therein which results in the total spaces provided being insufficient for the combined requirements of the users.

Agricultural and forestry practices located outside wetlands and surface water setbacks and/or buffers.

Resurfacing and routine maintenance of roads and parking lots.

Surface waters, including lakes, ponds, rivers, perennial, and intermittent streams (natural or channelized), and wetlands (including vernal pools) shall be protected by the minimum buffer setback distances as specified in the Wolfeboro Planning and Zoning Ordinance, Article II, Wetlands Conservation Overlay District.[1] Stormwater and erosion and sediment control BMPs shall be located outside the specified buffer zone unless otherwise approved by the Planning Board. Alternatives to stream and wetland crossings that eliminate or minimize environmental impacts shall be considered wherever possible. Where necessary, as determined by the Planning Board or its representative, stream and wetland crossings shall comply with state-recommended design standards to minimize impacts to flow and enhance animal passage. See the University of New Hampshire Stream Crossing Guidelines (May 2009, as amended) available from the UNH Environmental Research Group website at: https://www.nae.usace.army.mil/Portals/74/docs/regulatory/StreamRiverContinuity/nh stream crossing guidelines unh web rev 2.pdf (May, 2009).

Low-impact development (LID) site planning and design strategies must be used to the maximum extent practicable to reduce stormwater runoff volumes, protect water quality, and maintain predevelopment site hydrology. LID techniques that preserve existing native vegetation, reduce the development footprint, minimize or disconnect impervious area, and use enhanced stormwater BMPs (such as rain gardens, bioretention systems, tree box filters, and similar stormwater management landscaping techniques) shall be incorporated into landscaped areas. Capture and reuse of stormwater is strongly encouraged. The applicant must document in writing why LID strategies are not appropriate when not used to manage stormwater.

All stormwater treatment areas shall be planted with native plantings appropriate for the site conditions, including trees, grasses, shrubs and/or other native plants in sufficient numbers and density to prevent soil erosion and to achieve the water quality treatment requirements of this section.

All surface stormwater storage areas that receive rainfall runoff must be designed to drain within a maximum of 72 hours for vector control.

Salt storage areas shall be paved and fully contained with permanent or semipermanent measures and loading/off-loading areas shall be located, designed and maintained in accordance with current New Hampshire Department of Environmental Services published guidance such that no untreated discharge to receiving waters or abutting properties is possible. Snow storage areas shall be located in accordance with current New Hampshire Department of Environmental Services published guidance such that no direct untreated discharges to receiving waters or abutting properties are possible from the storage site. Runoff from snow and salt storage areas shall enter treatment areas as specified above before being discharged to receiving waters or allowed to infiltrate into the groundwater. See New Hampshire Department of Environmental Services published guidance fact sheets on road salt and water quality, and snow disposal at: https://www.des.nh.gov/sites/g/files/ehbemt341/files/documents/wmb-4.pdf (WMB4, 2021).

Surface runoff shall be directed into appropriate stormwater control measures designed for treatment and/or filtration to the maximum extent practicable and/or captured and reused on-site.

All newly generated stormwater from new development shall be treated on the development site. A development plan shall include provisions to retain natural predevelopment watershed areas on the site by using the natural flow patterns.

Runoff from impervious surfaces shall be treated to achieve at least 80% removal of total suspended solids and at least 50% removal of both total nitrogen and total phosphorus using appropriate treatment measures, as specified in the New Hampshire Stormwater Manual, Volumes 1 and 2, December 2008, or most current as amended, or other equivalent means, except where there is a water impairment as discussed in Subsection E(2)(b), below. Where practical, the use of natural, vegetated filtration and/or infiltration practices or subsurface gravel wetlands for water quality treatment is preferred. All new impervious area draining to surface waters impaired by nitrogen, phosphorus or nutrients shall be treated with stormwater BMPs designed to optimize pollutant removal efficiencies based on design standards and performance data published by the University of New Hampshire Stormwater Center and/or included in the latest version of the New Hampshire Stormwater Manual.

Measures shall be taken to control the post-development peak runoff rate so that it does not exceed predevelopment runoff. Drainage analyses shall include calculations comparing pre- and post-development stormwater runoff rates (cubic feet/second) and volumes (cubic feet) for the one-inch rainstorm and two-year, ten-year, twenty-five-year, and fifty-year, twenty-four-hour storm events. Similar measures shall be taken to control the post-development runoff volume to infiltrate the groundwater recharge volume (GRV) according to the following ratios of hydrologic soil group (HSG) type versus infiltration rate multiplier: HSG-A: 0.4; HSG-B: 0.25; HSG-C: 0.1; HSG-D: 0.00. For sites where infiltration is limited or not practicable, the applicant must demonstrate that the project will not create or contribute to water quality impairment.

The physical, biological and chemical integrity of the receiving waters shall not be degraded by the stormwater runoff from the development site.

The design of the stormwater drainage system shall provide for the disposal of stormwater without flooding or functional impairment to streets, adjacent properties, downstream properties, soils, or vegetation.

The design of the stormwater management systems shall account for upstream and upgradient runoff that flows onto, over, or through the site to be developed or redeveloped and provide for this contribution of runoff.

Appropriate erosion and sediment control measures shall be installed prior to any soil disturbance, the area of disturbance shall be kept to a minimum, and any sediment in runoff shall be retained within the project area. Wetland areas and surface waters shall be protected from sediment. Disturbed soil areas shall be either temporarily or permanently stabilized consistent with the New Hampshire Department of Environmental Services Stormwater Manual Volume 3 Guidelines (December, 2008), or latest edition, as amended. In areas where final grading has not occurred, temporary stabilization measures should be in place within seven days for exposed soil areas within 100 feet of a surface water body or wetland and no more than 14 days for all other areas. Permanent stabilization should be in place no later than three days following the completion of final grading of exposed soil areas.

All temporary control measures shall be removed after final site stabilization. Trapped sediment and other disturbed soil shall be permanently stabilized prior to removal of temporary control measures.

Every effort shall be made to use pervious parking surfaces as an alternative to impervious asphalt or concrete for general and overflow parking areas. Pervious pavement shall be appropriately sited and designed for traffic and vehicle loading conditions.

Whenever practicable, native site vegetation shall be retained, protected, or supplemented. Any stripping of vegetation shall be done in a manner that minimizes soil erosion.

No stormwater runoff generated from new development or redevelopment shall be discharged directly into a jurisdictional wetland or surface water body without adequate treatment.

All developments shall provide adequate management of stormwater runoff and prevent discharge of stormwater runoff from creating or contributing to water quality impairment.

On-site groundwater recharge rates shall be maintained by promoting infiltration through use of structural and/or nonstructural methods. The annual recharge from the post-development site shall mirror or exceed annual recharge from predevelopment site conditions. Capture and reuse of stormwater runoff is encouraged in instances where groundwater recharge is limited by site conditions. All stormwater management practices shall be designed to convey stormwater to allow for maximum groundwater recharge. This shall include, but not be limited to:

"Redevelopment" (as applicable to this stormwater regulation) means:

The following activities are not considered redevelopment:

Implement measures on-site that result in disconnection or treatment of 100% of the additional proposed impervious surface area and at least 30% of the existing impervious area and pavement areas, preferably using filtration and/or infiltration practices.

If resulting in greater overall water quality improvement on the site, implement LID practices to the maximum extent practicable to provide treatment of runoff generated from at least 60% of the entire developed site area.

If no report is filed by September 1, municipal staff or their designated agent shall have site access to complete routine inspections to ensure compliance with the approved stormwater management and sediment and erosion control plans. Such inspections shall be performed at a time agreed upon with the landowner.

The Planning Board will review status reports of all drainage reports annually.

A sidewalk or pedestrian pathway shall connect destinations and shall not require pedestrians to travel out of their way unnecessarily.

Pedestrian areas shall be clearly distinguished from vehicular and bicycle traffic areas through the use of paving materials, landscaping buffers, or other means.

Sidewalks and pedestrian pathways longer than 500 feet shall provide areas for standing and sitting and may include pedestrian amenities such as benches, tables, shade trees or grassy areas.

Such pedestrian areas shall be a minimum of 100 square feet in area and shall be provided at regular intervals of 300 feet along the sidewalk or pedestrian pathway.

Bicycle facilities (including routes and racks) may be combined with pedestrian facilities when designed according to shared path standards of AASHTO, but not on Town sidewalks.

Bicycle facilities shall be designed in accordance with AASHTO, Guide for the Development of Bicycle Facilities, as amended.

All racks shall be located in a convenient and secure location.

Where bicycle racks are placed near trees, trees shall be protected with tree guards to prevent the securing of bicycles to trees.

All racks shall be designed to allow the frame and one wheel to be locked to the rack with a high security, U-shaped shackle lock if both wheels are left on the bicycle.

All racks shall be securely anchored to a durable, hard-paved (preferably concrete) permanent surface.

All lighting in the Town of Wolfeboro is required to have full-cutoff shielding.

Up-lighting by any method is prohibited; however, the Planning Board may allow limited use of upward landscape lighting on a case-by-case basis.

Noncutoff-wall-pack-type fixtures are prohibited.

Any luminaire with a lamp or lamps rated at a total of more than 1,800 lumens, and all flood or spot luminaires with a lamp or lamps rated at a total of more than 900 lumens, shall not emit any direct light above a horizontal plane through the lowest direct-light-emitting part of the luminaire and shall not exceed 0.2 foot lumin at the property line.

Any luminaire with a lamp or lamps rated at a total of more than 1,800 lumens, and all flood or spot luminaires with a lamp or lamps rated at a total of more than 900 lumens, shall be mounted at a height equal to or less than the value 3 + (D/3), where D is the distance in feet to the nearest property boundary. The maximum height of the luminaire may not exceed 20 feet.

The luminaire's maximum illuminance shall not exceed the minimum illuminance recommended for that purpose as defined in the most recent illuminating Engineering Society's "Lighting Handbook/Reference & Application."

The submission shall contain but shall not necessarily be limited to the following:

Additional submission. The above required plans, descriptions and data shall be sufficiently complete to readily determine whether compliance with the requirements of this regulation is met. If such plans, descriptions and data cannot enable this ready determination, by reason of the nature or configuration of the devices, fixtures, or lamps proposed, the applicant shall additionally submit as evidence of compliance to enable such determination such certified reports of tests as will do so, provided that these tests shall have been performed and certified by a recognized testing laboratory.

Any luminaire with a lamp or lamps rated at a total of 1,800 lumens or less, and all flood or spot luminaires with a lamp or lamps rated at 900 lumens or less, may be used without restriction to light distribution or mounting height, except that if any spot or flood luminaire rated 900 lumens or less is aimed, directed, or focused such as to cause direct light from the luminaire to be directed toward residential buildings on adjacent or nearby land, or to create glare perceptible to persons operating motor vehicles on public ways, the luminaire shall be redirected or its light output controlled as necessary to eliminate such conditions.

Luminaires used for public roadway illumination may be installed at a maximum height of 20 feet and may be positioned at that height up to the edge of any bordering property. Proposed streetlights or replacements for existing streetlights shall be fully shielded.

Mercury vapor lamp fixtures and lamps. The installation of any mercury vapor fixture or lamp for use as outdoor lighting is prohibited.

Laser source light.

Searchlights. The operation of searchlights for advertising purposes is permitted by permit issued by the Building Inspector.

Neon.

Light-emitting diode (LED) lights, unless it falls within the range of 2,000 Kelvin and 4,500 Kelvin.

Outdoor lighting is used to illuminate roadways, parking lots, yards, sidewalks, public meeting areas, signs, work sites, and buildings. It provides us with better visibility and a sense of security.

When well-designed and properly installed, outdoor lighting can be and is very useful in improving visibility and safety and a sense of security, while at the same time minimizing energy use and operating costs.

Glare. Poorly-designed or poorly installed lighting can cause a great deal of glare that can severely hamper the vision of pedestrians, cyclists, and drivers, creating a hazard rather than increasing safety. Glare occurs when you can see light directly from the fixture (or bulb).

Light trespass. Poor outdoor lighting shines onto neighborhood properties and into bedroom windows, reducing privacy, hindering sleep, and creating an unattractive look to the area.

Energy waste. Much of our outdoor lighting wastes energy because it is not well-designed. This waste results in high operating costs and increased environmental pollution from the extra power generation needs. We waste over a billion dollars a year in the United States alone lighting up the sky at night.

Sky glow. A large fraction of poor lighting shines directly upwards, creating the adverse sky glow above the Town that washes our view of the dark night sky, taking away an important natural resource. In addition to the cost savings, less sky glow will allow future generations to enjoy the beauty of the stars, and children will be inspired to learn and perhaps to enter fields of science.

It provides adequate light for the intended task, but never over-lights. Specifying sufficient light for a job is sometimes hard to do on paper. Remember that a full moon can make an area seem quite bright. Some modern lighting systems illuminate areas to a level 100 times as bright as does the full moon. Brighter is not always better, so try to choose lights that will meet your needs without illuminating the neighborhood. If you can't decide what to do, consulting a good lighting designer is usually your best bet.

It uses fully-shielded lighting fixtures, fixtures that control the light output in order to keep the light in the intended area.

It has the lighting fixtures carefully installed to maximize their effectiveness on the targeted property and minimize their adverse impact beyond the property borders.

It uses fixtures with high-efficiency lamps, while still considering the color and quality as essential design criteria.

Good lighting means that we save energy and money, and we avoid hassles. A quality lighting job makes a "good neighbor." And we have a safer and more secure nighttime environment.

Always remember that lighting should benefit people. Controlled, effective, efficient lighting at a home or business will enhance the beauty, while providing visibility, safety, and security. Poorly-installed, bright lighting is offensive and gives a very poor image.

Most cheap fixtures have poor control of the light output, and they produce a lot of glare. It usually takes better and more-costly internal reflectors to get light out without glare and to give better light distribution. Modifying installed fixtures to reduce glare or installing more fixtures to better coverage can be expensive.

Cheap fixtures often have inefficient lamps and short lamp life, so they use far more energy than needed. Paying for more electricity than needed is expensive, as is the higher maintenance costs of these so-called "cheap" fixtures.

Always remember that lighting should benefit people. Controlled, effective, efficient lighting at your home or business will enhance the surroundings and give a sense of safety and security. People don't appreciate poorly installed, overly bright lighting.

Check your site at night before installing lighting and note the existing light levels. If the area has low levels of lighting, then modest levels of light will work well for you and will fit more hospitably in the neighborhood.

Try to keep the lighting uniform and reduce glare as much as possible. Lights that make bright "hot spots" and ones that have glare make it hard to see well, especially for older people.

Be aware that light fixtures can have different lighting patterns. (Some patterns are long and narrow light cones, while others are more symmetrical.) Some fixtures have internal adjustments that can change the lighting pattern to a modest extent. Pick the right pattern for your job.

Consider using lights that turn on by motion detection. Not only will you reap big savings in operating costs, but you will have a far more effective security light due to its instant-on characteristics. Note that these lights can also be turned on manually. These light fixtures are not expensive, and they use very little energy. Higher-priced motion-detection units will prove more reliable.